Tag Archives: University of British Columbia (UBC)

Support Our Science and the mass student walkout of May 1, 2023

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It’s hard to tell how many students and staff participated in yesterday’s (May 1, 2023) Canada-wide walkout. The University of British Columbia (UBC) counted 300 in their walkout (from a May 1, 2023 article by Amir Ali for The Daily Hive). The total number is not available but there is a Nationwide Walkout page on the Support Our Science website with a list of over 30 participating institutions.

I didn’t pay much attention to the concerns from the academic community about the lack of support for Canadian research in my April 24, 2023 posting “The 2023 Canadian federal budget: science & technology of the military and cybersecurity and some closing comments (2 of 2)”; see the”Always a little disappointment” subhead featuring excerpts from a Universities Canada response and Federation for Humanities and Social Sciences briefing on the 2023 federal budget.

Thankfully, others have filled in the gap. Brian Owens wrote an April 28, 2023 article for Nature about the then proposed walkout and the reasons for it, Note: Links have been removed,

“Pay for grad students hasn’t increased in 20 years, while there has been 50% inflation over the same period,” says Sarah Laframboise, a biochemistry PhD student at the University of Ottawa and executive director of Support Our Science, a student-led campaign group that is organizing the walkout.

Scholarships from the federal government provide an annual stipend of Can$17,500 (US$12,800) for master’s degree students, either $23,000 or $35,000 for PhD students, and $45,000 for postdoctoral fellowships. That leaves many researchers in a precarious financial position, says Laframboise. A survey that she and her colleagues conducted of more than 1,000 Canadian graduate students found that almost half of respondents either frequently struggled to make ends meet or were forced to make sacrifices to afford necessities, and 30% had considered leaving their studies because of financial hardship1.

Support our Science has three main demands. First, it wants master’s scholarships to increase in value to $25,900 (a rise of 48%), postdoctoral fellowships to increase to $59,200, and the two levels of PhD scholarship to be equalized at $35,000. Second, it wants a 50% increase in the number of scholarships funded each year, and a doubling in the number of fellowships. Finally, it wants the size of federal research grants to increase by 50%, to allow professors to increase pay for students and postdocs who do not have a federal scholarship. The organization says that these demands are in line with recommendations from the government’s own advisory panel on the research-support system, which published its report in March [2023].

You can find the March 2023 Report of the Advisory Panel on the Federal Research Support System mentioned in Owens’s article here.

That report and more are mentioned in a March 24, 2023 Support Out Science press release issued in response to the 2023 Canadian federal budget,

Support Our Science (SOS) has worked tirelessly over the last year to advocate for increased funding to graduate students and postdoctoral scholars. We are disappointed that the Government of Canada’s Budget 2023 does not include any new investments for the next generation of research and innovation leaders driving Canada’s economy. We recognize the fiscal challenges our nation is currently facing; however, Budget 2023 will have drastic impacts on current graduate and postdoctoral scholars in Canada and will negatively impact the retention and attraction of top talent for years to come.

Of the G7 nations, Canada already makes among the lowest investments in research, development and training. This is documented in the report by the Advisory Panel on the Federal Research Support System, the 2017 Fundamental Science Review, and the 2021 Degrees of Success Report by the Canadian Council of Academies. This budget puts Canada even further behind. Our ability to advance green technologies, cybersecurity, quantum technologies, disease prevention, and many other areas of critical and urgent need are being hampered by the Government of Canada’s lack of investment in the next generation of researchers.

A May 1, 2023 article (with files from Mike Crawley, Joel Ballard and Maurice Katz) on the Canadian Broadcasting Corporation’s (CBC) news website details some of the hardships faced by graduate and postgraduate students, Note: Links have been removed,

A Canada graduate scholarship from one of the three federal research funding agencies is $17,500 per year for a master’s student or $21,000 per year for a doctoral student.

Luis Ramirez, a master’s student at Simon Fraser University (SFU), says the amount he is afforded is barely enough to cover his rent, tuition and food. 

“We’re getting less than $30,000 [per year], even the PhD students.

“We have to pay rent, we have to pay tuition, and we have to pay groceries and clothing and so on. So it’s almost impossible to continue with this. We are on the poverty line right now.” 

UBC graduate student Katrina Bergmann says the low scholarship amounts are “unacceptable.”

“We are the major workforce for Canadian science and innovation,” she said. 

Nancy Forde, a professor at SFU, said federal funding is not meant to make anyone rich but is instead there to ensure researchers can focus on their work without worrying about finances. 

But, she says no one can survive on the amount provided in these scholarship funds, adding that many are using food banks [emphasis mine] to get by. 

“I have students in my own research group who are leaving research because they can’t afford to live,” she said. “They came into the program with savings, and they’ve depleted their savings.”

“Only the privileged can survive.”

In December [2022], Champagne [François-Philippe Champagne, the minister of science, innovation and industry] said he was aware of the call for more funding for graduate researchers and that it would be part of discussions with the finance minister.

“It’s clear that if we want to own the podium, we need to do more to support the researchers, the students and the scientists,” Champagne said.

In a statement, a spokesperson for the federal Science Ministry said it had provided $114 million over five years in the 2019 budget to granting agencies to create 500 master’s scholarships every year, in addition to an $813.6 million increase to student grants in the most recent budget.

The spokesperson did not specifically respond to a question about whether the scholarship amounts would increase. [emphases mins]

It seems students are not the only ones using food banks, from an April 23, 2023 article “UBC staff will no longer be able to access AMS Food Bank due to rising costs” by Nikitha Martins for The Daily Hive,

Kathleen Simpson is a Senior Manager at AMS [Alma Mater Society] and tells Daily Hive the student union’s decision to end support for UBC staff was not one it took lightly.

However, the rising cost of food has driven more people to need support from the AMS food bank and simultaneously made it more expensive to purchase food to operate the food bank.

Last year, the AMS food bank served 7,496 people. By the end of this policy year, the student union expects to help 15,861 people.

“In the last month alone, we saw a 1,000% spike over the previous month, quite unusual, but we are really facing some very high business numbers, and when you combine that with some of the costs of food that have been rising for some of our staple items,” Simpson explained.

AMS has put in a funding request to UBC for $350,000.

“Next year, our cost of groceries alone is projected to cost around $449,000,” Simpson said. “So we’re hoping to hear back… whether or not that full funding will be allocated.”

AMS is asking for nearly double what it received last year from UBC.

I wish them good luck in getting long overdue increases.For the curious, Support Our Science can be found here.

The 2023 Canadian federal budget: science & technology of health, the clean economy, reconciliation, and more (1 of 2)

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The Canadian federal government released its 2023 budget on Tuesday, March 28, 2023. There were no flashy science research announcements in the budget. Trudeau and his team like to trumpet science initiatives and grand plans (even if they’re reannouncing something from a previous budget) but like last year—this year—not so much.

Consequently, this posting about the annual federal budget should have been shorter than usual. What happened?

Partly, it’s the military spending (chapter 5 of the budget in part 2 of this 2023 budget post). For those who are unfamiliar with the link between military scientific research and their impact on the general population, there are a number of inventions and innovations directly due to military research, e.g., plastic surgery, television, and the internet. (You can check a November 6, 2018 essay for The Conversation by Robert Kirby, Professor of Clinical Education and Surgery at Keele University, for more about the impact of World War 1 and medical research, “World War I: the birth of plastic surgery and modern anaesthesia.”)

So, there’s a lot to be found by inference. Consequently, I found Chapter 3 to also be unexpectedly rich in science and technology efforts.

Throughout both parts of this 2023 Canadian federal budget post, you will find excerpts from individual chapters of the federal budget followed my commentary directly after. My general commentary is reserved for the end.

Sometimes, I have included an item because it piqued my interest. E.g., Canadian agriculture is dependent on Russian fertilizer!!! News to me and I imagine many others. BTW, this budget aims to wean us from this dependency.

Chapter 2: Investing in Public Health Care and Affordable Dental Care

Here goes: from https://www.budget.canada.ca/2023/report-rapport/toc-tdm-en.html,

2.1 Investing in Public Health Care

Improving Canada’s Readiness for Health Emergencies

Vaccines and other cutting-edge life-science innovations have helped us to take control of the COVID-19 pandemic. To support these efforts, the federal government has committed significant funding towards the revitalization of Canada’s biomanufacturing sector through a Biomanufacturing and Life Sciences Strategy [emphasis mine]. To date, the government has invested more than $1.8 billion in 32 vaccine, therapeutic, and biomanufacturing projects across Canada, alongside $127 million for upgrades to specialized labs at universities across the country. Canada is building a life sciences ecosystem that is attracting major investments from leading global companies, including Moderna, AstraZeneca, and Sanofi.

To build upon the progress of the past three years, the government will explore new ways to be more efficient and effective in the development and production of the vaccines, therapies, and diagnostic tools that would be required for future health emergencies. As a first step, the government will further consult Canadian and international experts on how to best organize our readiness efforts for years to come. …

Gold rush in them thar life sciences

I have covered the rush to capitalize on Canadian life sciences research (with a special emphasis on British Columbia) in various posts including (amongst others): my December 30, 2020 posting “Avo Media, Science Telephone, and a Canadian COVID-19 billionaire scientist,” and my August 23, 2021 posting “Who’s running the life science companies’ public relations campaign in British Columbia (Vancouver, Canada)?” There’s also my August 20, 2021 posting “Getting erased from the mRNA/COVID-19 story,” highlighting how brutal the competition amongst these Canadian researchers can be.

Getting back to the 2023 budget, ‘The Biomanufacturing and Life Sciences Strategy’ mentioned in this latest budget was announced in a July 28, 2021 Innovation, Science and Economic Development Canada news release. You can find the strategy here and an overview of the strategy here. You may want to check out the overview as it features links to,

What We Heard Report: Results of the consultation on biomanufacturing and life sciences capacity in Canada

Ontario’s Strategy: Taking life sciences to the next level

Quebec’s Strategy: 2022–2025 Québec Life Sciences Strategy

Nova Scotia’s Strategy: BioFuture2030 Prince Edward Island’s Strategy:

The Prince Edward Island Bioscience Cluster [emphases mine]

2022 saw one government announcement concerning the strategy, from a March 3, 2022 Innovation, Science and Economic Development Canada news release, Note: Links have been removed,

Protecting the health and safety of Canadians and making sure we have the domestic capacity to respond to future health crises are top priorities of the Government of Canada. With the guidance of Canada’s Biomanufacturing and Life Sciences Strategy, the government is actively supporting the growth of a strong, competitive domestic life sciences sector, with cutting-edge biomanufacturing capabilities.

Today [March 3, 2022], the Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry, announced a $92 million investment in adMare BioInnovations to drive company innovation, scale-up and training activities in Canada’s life sciences sector. This investment will help translate commercially promising health research into innovative new therapies and will see Canadian anchor companies provide the training required and drive the growth of Canada’s life science companies.

The real action took place earlier this month (March 2023) just prior to the budget. Oddly, I can’t find any mention of these initiatives in the budget document. (Confession: I have not given the 2023 budget a close reading although I have been through the whole budget once and viewed individual chapters more closely a few times.)

This March 2, 2023 (?) Tri-agency Institutional Programs Secretariat news release kicked things off, Note 1: I found the date at the bottom of their webpage; Note 2: Links have been removed,

The Government of Canada’s main priority continues to be protecting the health and safety of Canadians. Throughout the pandemic, the quick and decisive actions taken by the government meant that Canada was able to scale up domestic biomanufacturing capacity, which had been in decline for over 40 years. Since then, the government is rebuilding a strong and competitive biomanufacturing and life sciences sector brick by brick. This includes strengthening the foundations of the life sciences ecosystem through the research and talent of Canada’s world-class postsecondary institutions and research hospitals, as well as fostering increased collaboration with innovative companies.

Today [March 2, 2023?], the Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry, and the Honourable Jean-Yves Duclos, Minister of Health, announced an investment of $10 million in support of the creation of five research hubs [emphasis mine]:

  • CBRF PRAIRIE Hub, led by the University of Alberta
  • Canada’s Immuno-Engineering and Biomanufacturing Hub, led by The University of British Columbia
  • Eastern Canada Pandemic Preparedness Hub, led by the Université de Montréal
  • Canadian Pandemic Preparedness Hub, led by the University of Ottawa and McMaster University
  • Canadian Hub for Health Intelligence & Innovation in Infectious Diseases, led by the University of Toronto

This investment, made through Stage 1 of the integrated Canada Biomedical Research Fund (CBRF) and Biosciences Research Infrastructure Fund (BRIF) competition, will bolster research and talent development efforts led by the institutions, working in collaboration with their partners. The hubs combine the strengths of academia, industry and the public and not-for-profit sectors to jointly improve pandemic readiness and the overall health and well-being of Canadians.

The multidisciplinary research hubs will accelerate the research and development of next-generation vaccines and therapeutics and diagnostics, while supporting training and development to expand the pipeline of skilled talent. The hubs will also accelerate the translation of promising research into commercially viable products and processes. This investment helps to strengthen the resilience of Canada’s life sciences sector by supporting leading Canadian research in innovative technologies that keep us safe and boost our economy.

Today’s [March 2, 2023?] announcement also launched Stage 2 of the CBRF-BRIF competition. This is a national competition that includes $570 million in available funding for proposals, aimed at cutting-edge research, talent development and research infrastructure projects associated with the selected research hubs. By strengthening research and talent capacity and leveraging collaborations across the entire biomanufacturing ecosystem, Canada will be better prepared to face future pandemics, in order to protect Canadian’s health and safety. 

Then, the Innovation, Science and Economic Development Canada’s March 9, 2023 news release made this announcement, Note: Links have been removed,

Since March 2020, major achievements have been made to rebuild a vibrant domestic life sciences ecosystem to protect Canadians against future health threats. The growth of the sector is a top priority for the Government of Canada, and with over $1.8 billion committed to 33 projects to boost our domestic biomanufacturing, vaccine and therapeutics capacity, we are strengthening our resiliency for current health emergencies and our readiness for future ones.

The COVID-19 Vaccine Task Force played a critical role in guiding and supporting the Government of Canada’s COVID-19 vaccine response. Today [March 9, 2023], recognizing the importance of science-based decisions, the Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry, and the Honourable Jean-Yves Duclos, Minister of Health, are pleased to announce the creation of the Council of Expert Advisors (CEA). The 14 members of the CEA, who held their first official meeting earlier this week, will advise the Government of Canada on the long-term, sustainable growth of Canada’s biomanufacturing and life sciences sector, and on how to enhance our preparedness and capacity to protect the health and safety of Canadians.

The membership of the CEA comprises leaders with in-depth scientific, industrial, academic and public health expertise. The CEA co-chairs are Joanne Langley, Professor of Pediatrics and of Community Health and Epidemiology at the Dalhousie University Faculty of Medicine, and Division Head of Infectious Diseases at the IWK Health Centre; and Marco Marra, Professor in Medical Genetics at the University of British Columbia (UBC), UBC Canada Research Chair in Genome Science and distinguished scientist at the BC Cancer Foundation.

The CEA’s first meeting focused on the previous steps taken under Canada’s Biomanufacturing and Life Sciences Strategy and on its path forward. The creation of the CEA is an important milestone in the strategy, as it continues to evolve and adapt to new technologies and changing conditions in the marketplace and life sciences ecosystem. The CEA will also inform on investments that enhance capacity across Canada to support end-to-end production of critical vaccines, therapeutics and essential medical countermeasures, and to ensure that Canadians can reap the full economic benefits of the innovations developed, including well-paying jobs.

As I’m from British Columbia, I’m highlighting this University of British Columbia (UBC) March 17, 2023 news release about their involvement, Note: Links have been removed,

Canada’s biotech ecosystem is poised for a major boost with the federal government announcement today that B.C. will be home to Canada’s Immuno-Engineering and Biomanufacturing Hub (CIEBH).

The B.C.-based research and innovation hub, led by UBC, brings together a coalition of provincial, national and international partners to position Canada as a global epicentre for the development and manufacturing of next-generation immune-based therapeutics.

A primary goal of CIEBH is to establish a seamless drug development pipeline that will enable Canada to respond to future pandemics and other health challenges in fewer than 100 days.

This hub will build on the strengths of B.C.’s biotech and life sciences industry, and those of our national and global partners, to make Canada a world leader in the development of lifesaving medicines,” said Dr. Deborah Buszard, interim president and vice-chancellor of UBC. “It’s about creating a healthier future for all Canadians. Together with our outstanding alliance of partners, we will ensure Canada is prepared to respond rapidly to future health challenges with homegrown solutions.”

CIEBH is one of five new research hubs announced by the federal government that will work together to improve pandemic readiness and the overall health and well-being of Canadians. Federal funding of $570 million is available over the next four years to support project proposals associated with these hubs in order to advance Canada’s Biomanufacturing and Life Sciences Strategy.

More than 50 organizations representing the private, public, not-for-profit and academic sectors have come together to form the hub, creating a rich environment that will bolster biomedical innovation in Canada. Among these partners are leading B.C. biotech companies that played a key role in Canada’s COVID-19 pandemic response and are developing cutting-edge treatments for a range of human diseases.

CIEBH, led by UBC, will further align the critical mass of biomedical research strengths concentrated at B.C. academic institutions, including the B.C. Institute of Technology, Simon Fraser University and the University of Victoria, as well as the clinical expertise of B.C. research hospitals and health authorities. With linkages to key partners across Canada, including Dalhousie University, the University of Waterloo, and the Vaccine and Infectious Disease Organization, the hub will create a national network to address gaps in Canada’s drug development pipeline.

In recent decades, B.C. has emerged as a global leader in immuno-engineering, a field that is transforming how society treats disease by harnessing and modulating the immune system.

B.C. academic institutions and prominent Canadian companies like Precision NanoSystems, Acuitas Therapeutics and AbCellera have developed significant expertise in advanced immune-based therapeutics such as lipid nanoparticle- and mRNA-based vaccines, engineered antibodies, cell therapies and treatments for antimicrobial resistant infections. UBC professor Dr. Pieter Cullis, a member of CIEBH’s core scientific team, has been widely recognized for his pioneering work developing the lipid nanoparticle delivery technology that enables mRNA therapeutics such as the highly effective COVID-19 mRNA vaccines.

As noted previously, I’m a little puzzled that the federal government didn’t mention the investment in these hubs in their budget. They usually trumpet these kinds of initiatives.

On a related track, I’m even more puzzled that the province of British Columbia does not have its own life sciences research strategy in light of that sector’s success. Certainly it seems that Ontario, Quebec, Nova Scotia, and Prince Edward are all eager to get a piece of the action. Still, there is a Life Sciences in British Columbia: Sector Profile dated June 2020 and an undated (likely from some time between July 2017 to January 2020 when Bruce Ralston whose name is on the document was the relevant cabinet minister) British Columbia Technology and Innovation Policy Framework.

In case you missed the link earlier, see my August 23, 2021 posting “Who’s running the life science companies’ public relations campaign in British Columbia (Vancouver, Canada)?” which includes additional information about the BC life sciences sector, federal and provincial funding, the City of Vancouver’s involvement, and other related matters.

Chapter 3: A Made-In-Canada Plan: Affordable Energy, Good Jobs, and a Growing Clean Economy

The most science-focused information is in Chapter 3, from https://www.budget.canada.ca/2023/report-rapport/toc-tdm-en.html,

3.2 A Growing, Clean Economy

More than US$100 trillion in private capital is projected to be spent between now and 2050 to build the global clean economy.

Canada is currently competing with the United States, the European Union, and countries around the world for our share of this investment. To secure our share of this global investment, we must capitalize on Canada’s competitive advantages, including our skilled and diverse workforce, and our abundance of critical resources that the world needs.

The federal government has taken significant action over the past seven years to support Canada’s net-zero economic future. To build on this progress and support the growth of Canada’s clean economy, Budget 2023 proposes a range of measures that will encourage businesses to invest in Canada and create good-paying jobs for Canadian workers.

This made-in-Canada plan follows the federal tiered structure to incent the development of Canada’s clean economy and provide additional support for projects that need it. This plan includes:

  • Clear and predictable investment tax credits to provide foundational support for clean technology manufacturing, clean hydrogen, zero-emission technologies, and carbon capture and storage;
  • The deployment of financial instruments through the Canada Growth Fund, such as contracts for difference, to absorb certain risks and encourage private sector investment in low-carbon projects, technologies, businesses, and supply chains; and,
  • Targeted clean technology and sector supports delivered by Innovation, Science and Economic Development Canada to support battery manufacturing and further advance the development, application, and manufacturing of clean technologies.

Canada’s Potential in Critical Minerals

As a global leader in mining, Canada is in a prime position to provide a stable resource base for critical minerals [emphasis mine] that are central to major global industries such as clean technology, auto manufacturing, health care, aerospace, and the digital economy. For nickel and copper alone, the known reserves in Canada are more than 10 million tonnes, with many other potential sources at the exploration stage.

The Buy North American provisions for critical minerals and electric vehicles in the U.S. Inflation Reduction Act will create opportunities for Canada. In particular, U.S. acceleration of clean technology manufacturing will require robust supply chains of critical minerals that Canada has in abundance. However, to fully unleash Canada’s potential in critical minerals, we need to ensure a framework is in place to accelerate private investment.

Budget 2022 committed $3.8 billion for Canada’s Critical Minerals Strategy to provide foundational support to Canada’s mining sector to take advantage of these new opportunities. The Strategy was published in December 2022.

On March 24, 2023, the government launched the Critical Minerals Infrastructure Fund [emphasis mine; I cannot find a government announcement/news release for this fund]—a new fund announced in Budget 2022 that will allocate $1.5 billion towards energy and transportation projects needed to unlock priority mineral deposits. The new fund will complement other clean energy and transportation supports, such as the Canada Infrastructure Bank and the National Trade Corridors Fund, as well as other federal programs that invest in critical minerals projects, such as the Strategic Innovation Fund.

The new Investment Tax Credit for Clean Technology Manufacturing proposed in Budget 2023 will also provide a significant incentive to boost private investment in Canadian critical minerals projects and create new opportunities and middle class jobs in communities across the country.

An Investment Tax Credit for Clean Technology Manufacturing

Supporting Canadian companies in the manufacturing and processing of clean technologies, and in the extraction and processing of critical minerals, will create good middle class jobs for Canadians, ensure our businesses remain competitive in major global industries, and support the supply chains of our allies around the world.

While the Clean Technology Investment Tax Credit, first announced in Budget 2022, will provide support to Canadian companies adopting clean technologies, the Clean Technology Manufacturing Investment Tax Credit will provide support to Canadian companies that are manufacturing or processing clean technologies and their precursors.

  • Budget 2023 proposes a refundable tax credit equal to 30 per cent of the cost of investments in new machinery and equipment used to manufacture or process key clean technologies, and extract, process, or recycle key critical minerals, including:
    • Extraction, processing, or recycling of critical minerals essential for clean technology supply chains, specifically: lithium, cobalt, nickel, graphite, copper, and rare earth elements;
    • Manufacturing of renewable or nuclear energy equipment;
    • Processing or recycling of nuclear fuels and heavy water; [emphases mine]
    • Manufacturing of grid-scale electrical energy storage equipment;
    • Manufacturing of zero-emission vehicles; and,
    • Manufacturing or processing of certain upstream components and materials for the above activities, such as cathode materials and batteries used in electric vehicles.

The investment tax credit is expected to cost $4.5 billion over five years, starting in 2023-24, and an additional $6.6 billion from 2028-29 to 2034-35. The credit would apply to property that is acquired and becomes available for use on or after January 1, 2024, and would no longer be in effect after 2034, subject to a phase-out starting in 2032.

3.4 Reliable Transportation and Resilient Infrastructure

Supporting Resilient Infrastructure Through Innovation

The Smart Cities Challenge [emphasis mine] was launched in 2017 to encourage cities to adopt new and innovative approaches to improve the quality of life for their residents. The first round of the Challenge resulted in $75 million in prizes across four winning applicants: Montreal, Quebec; Guelph, Ontario; communities of Nunavut; and Bridgewater, Nova Scotia.

New and innovative solutions are required to help communities reduce the risks and impacts posed by weather-related events and disasters triggered by climate change. To help address this issue, the government will be launching a new round of the Smart Cities Challenge later this year, which will focus on using connected technologies, data, and innovative approaches to improve climate resiliency.

3.5 Investing in Tomorrow’s Technology

With the best-educated workforce on earth, world-class academic and research institutions, and robust start-up ecosystems across the country, Canada’s economy is fast becoming a global technology leader – building on its strengths in areas like artificial intelligence. Canada is already home to some of the top markets for high-tech careers in North America, including the three fastest growing markets between 2016 and 2021: Vancouver, Toronto, and Quebec City.

However, more can be done to help the Canadian economy reach its full potential. Reversing a longstanding trend of underinvestment in research and development by Canadian business [emphasis mine] is essential our long-term economic growth.

Budget 2023 proposes new measures to encourage business innovation in Canada, as well as new investments in college research and the forestry industry that will help to build a stronger and more innovative Canadian economy.

Attracting High-Tech Investment to Canada

In recent months, Canada has attracted several new digital and high-tech projects that will support our innovative economy, including:

  • Nokia: a $340 million project that will strengthen Canada’s position as a leader in 5G and digital innovation;
  • Xanadu Quantum Technologies: a $178 million project that will support Canada’s leadership in quantum computing;
  • Sanctuary Cognitive Systems Corporation: a $121 million project that will boost Canada’s leadership in the global Artificial Intelligence market; and,
  • EXFO: a $77 million project to create a 5G Centre of Excellence that aims to develop one of the world’s first Artificial Intelligence-based automated network solutions.

Review of the Scientific Research and Experimental Development Tax Incentive Program

The Scientific Research and Experimental Development (SR&ED) tax incentive program continues to be a cornerstone of Canada’s innovation strategy by supporting research and development with the goal of encouraging Canadian businesses of all sizes to invest in innovation that drives economic growth.

In Budget 2022, the federal government announced its intention to review the SR&ED program to ensure it is providing adequate support and improving the development, retention, and commercialization of intellectual property, including the consideration of adopting a patent box regime. [emphasis mine] The Department of Finance will continue to engage with stakeholders on the next steps in the coming months.

Modernizing Canada’s Research Ecosystem

Canada’s research community and world-class researchers solve some of the world’s toughest problems, and Canada’s spending on higher education research and development, as a share of GDP, has exceeded all other G7 countries. 

Since 2016, the federal government has committed more than $16 billion of additional funding to support research and science across Canada. This includes:

  • Nearly $4 billion in Budget 2018 for Canada’s research system, including $2.4 billion for the Canada Foundation for Innovation and the granting councils—the Natural Sciences and Engineering Research Council of Canada, the Social Sciences and Humanities Research Council of Canada and the Canadian Institutes of Health Research; [emphases mine]
  • More than $500 million in Budget 2019 in total additional support to third-party research and science organizations, in addition to the creation of the Strategic Science Fund, which will announce successful recipients later this year;
  • $1.2 billion in Budget 2021 for Pan-Canadian Genomics and Artificial Intelligence Strategies, and a National Quantum Strategy;
  • $1 billion in Budget 2021 to the granting councils and the Canada Foundation for Innovation for life sciences researchers and infrastructure; and,
  • The January 2023 announcement of Canada’s intention to become a full member in the Square Kilometre Array Observatory, which will provide Canadian astronomers with access to its ground-breaking data. The government is providing up to $269.3 million to support this collaboration.

In order to maintain Canada’s research strength—and the knowledge, innovations, and talent it fosters—our systems to support science and research must evolve. The government has been consulting with stakeholders, including through the independent Advisory Panel on the Federal Research Support System, to seek advice from research leaders on how to further strengthen Canada’s research support system.

The government is carefully considering the Advisory Panel’s advice, with more detail to follow in the coming months on further efforts to modernize the system.

Using College Research to Help Businesses Grow

Canada’s colleges, CEGEPs, and polytechnic institutes use their facilities, equipment, and expertise to solve applied research problems every day. Students at these institutions are developing the skills they need to start good careers when they leave school, and by partnering with these institutions, businesses can access the talent and the tools they need to innovate and grow.

  • To help more Canadian businesses access the expertise and research and development facilities they need, Budget 2023 proposes to provide $108.6 million over three years, starting in 2023-24, to expand the College and Community Innovation Program, administered by the Natural Sciences and Engineering Research Council.

Supporting Canadian Leadership in Space

For decades, Canada’s participation in the International Space Station has helped to fuel important scientific advances, and showcased Canada’s ability to create leading-edge space technologies, such as Canadarm2. Canadian space technologies have inspired advances in other fields, such as the NeuroArm, the world’s first robot capable of operating inside an MRI, making previously impossible surgeries possible.

  • Budget 2023 proposes to provide $1.1 billion [emphasis mine] over 14 years, starting in 2023-24, on a cash basis, to the Canadian Space Agency [emphasis mine] to continue Canada’s participation in the International Space Station until 2030.

Looking forward, humanity is returning to the moon [emphasis mine]. Canada intends to join these efforts by contributing a robotic lunar utility vehicle to perform key activities in support of human lunar exploration. Canadian participation in the NASA-led Lunar Gateway station—a space station that will orbit the moon—also presents new opportunities for innovative advances in science and technology. Canada is providing Canadarm3 to the Lunar Gateway, and a Canadian astronaut will join Artemis II, the first crewed mission to the moon since 1972. In Budget 2023, the government is providing further support to assist these missions.

  • Budget 2023 proposes to provide $1.2 billion [emphasis mine] over 13 years, starting in 2024-25, to the Canadian Space Agency to develop and contribute a lunar utility vehicle to assist astronauts on the moon.
  • Budget 2023 proposes to provide $150 million [emphasis mine[ over five years, starting in 2023-24, to the Canadian Space Agency for the next phase of the Lunar Exploration Accelerator Program to support the Canada’s world-class space industry and help accelerate the development of new technologies.
  • Budget 2023 also proposes to provide $76.5 million [emphasis mine] over eight years, starting in 2023-24, on a cash basis, to the Canadian Space Agency in support of Canadian science on the Lunar Gateway station.

Investing in Canada’s Forest Economy

The forestry sector plays an important role in Canada’s natural resource economy [emphasis mine], and is a source of good careers in many rural communities across Canada, including Indigenous communities. As global demand for sustainable forest products grows, continued support for Canada’s forestry sector will help it innovate, grow, and support good middle class jobs for Canadians.

  • Budget 2023 proposes to provide $368.4 million over three years, starting in 2023-24, with $3.1 million in remaining amortization, to Natural Resources Canada to renew and update forest sector support, including for research and development, Indigenous and international leadership, and data. Of this amount, $30.1 million would be sourced from existing departmental resources.

Establishing the Dairy Innovation and Investment Fund

The dairy sector is facing a growing surplus of solids non-fat (SNF) [emphasis mine], a by-product of dairy processing. Limited processing capacity for SNF results in lost opportunities for dairy processors and farmers.

  • Budget 2023 proposes to provide $333 million over ten years, starting in 2023-24, for Agriculture and Agri-Food Canada to support investments in research and development of new products based on SNF, market development for these products, and processing capacity for SNF-based products more broadly.

Supporting Farmers for Diversifying Away from Russian Fertilizers

Russia’s illegal invasion of Ukraine has resulted in higher prices for nitrogen fertilizers, which has had a notable impact on Eastern Canadian farmers who rely heavily on imported fertilizer.

  • Budget 2023 proposes to provide $34.1 million over three years, starting in 2023-24, to Agriculture and Agri-Food Canada’s On-Farm Climate Action Fund to support adoption of nitrogen management practices by Eastern Canadian farmers, that will help optimize the use and reduce the need for fertilizer.

Providing Interest Relief for Agricultural Producers

Farm production costs have increased in Canada and around the world, including as a result Russia’s illegal invasion of Ukraine and global supply chain disruptions. It is important that Canada’s agricultural producers have access to the cash flow they need to cover these costs until they sell their products.

  • Budget 2023 proposes to provide $13 million in 2023-24 to Agriculture and Agri-Food Canada to increase the interest-free limit for loans under the Advance Payments Program from $250,000 to $350,000 for the 2023 program year.

Additionally, the government will consult with provincial and territorial counterparts to explore ways to extend help to small agricultural producers who demonstrate urgent financial need.

Maintaining Livestock Sector Exports with a Foot-and-Mouth Disease Vaccine Bank

Foot-and-Mouth Disease (FMD) is a highly transmissible illness that can affect cattle, pigs, and other cloven-hoofed animals. Recent outbreaks in Asia and Africa have increased the risk of global spread, and a FMD outbreak in Canada would cut off exports for all livestock sectors, with major economic implications. However, the impact of a potential outbreak would be significantly reduced with the early vaccination of livestock. 

  • Budget 2023 proposes to provide $57.5 million over five years, starting in 2023-24, with $5.6 million ongoing, to the Canadian Food Inspection Agency to establish a FMD vaccine bank for Canada, and to develop FMD response plans. The government will seek a cost-sharing arrangement with provinces and territories.

Canadian economic theory (the staples theory), mining, nuclear energy, quantum science, and more

Critical minerals are getting a lot of attention these days. (They were featured in the 2022 budget, see my April 19, 2022 posting, scroll down to the Mining subhead.) This year, US President Joe Biden, in his first visit to Canada as President, singled out critical minerals at the end of his 28 hour state visit (from a March 24, 2023 CBC news online article by Alexander Panetta; Note: Links have been removed),

There was a pot of gold at the end of President Joe Biden’s jaunt to Canada. It’s going to Canada’s mining sector.

The U.S. military will deliver funds this spring to critical minerals projects in both the U.S. and Canada. The goal is to accelerate the development of a critical minerals industry on this continent.

The context is the United States’ intensifying rivalry with China.

The U.S. is desperate to reduce its reliance on its adversary for materials needed to power electric vehicles, electronics and many other products, and has set aside hundreds of millions of dollars under a program called the Defence Production Act.

The Pentagon already has told Canadian companies they would be eligible to apply. It has said the cash would arrive as grants, not loans.

On Friday [March 24, 2023], before Biden left Ottawa, he promised they’ll get some.

The White House and the Prime Minister’s Office announced that companies from both countries will be eligible this spring for money from a $250 million US fund.

Which Canadian companies? The leaders didn’t say. Canadian officials have provided the U.S. with a list of at least 70 projects that could warrant U.S. funding.

“Our nations are blessed with incredible natural resources,” Biden told Canadian parliamentarians during his speech in the House of Commons.

Canada in particular has large quantities of critical minerals [emphasis mine] that are essential for our clean energy future, for the world’s clean energy future.

I don’t believe that Joe Biden has ever heard of the Canadian academic Harold Innis (neither have most Canadians) but Biden is echoing a rather well known theory, in some circles, about Canada’s economy (from the Harold Innis Wikipedia entry),

Harold Adams Innis FRSC (November 5, 1894 – November 9, 1952) was a Canadian professor of political economy at the University of Toronto and the author of seminal works on media, communication theory, and Canadian economic history. He helped develop the staples thesis, which holds that Canada’s culture, political history, and economy have been decisively influenced by the exploitation and export of a series of “staples” such as fur, fish, lumber, wheat, mined metals, and coal. The staple thesis dominated economic history in Canada from the 1930s to 1960s, and continues to be a fundamental part of the Canadian political economic tradition.[8] [all emphases mine]

The staples theory is referred to informally as “hewers of wood and drawers of water.”

Critical Minerals Infrastructure Fund

I cannot find an announcement for this fund (perhaps it’s a US government fund?) but there is a March 7, 2023 Natural Resources Canada news release, Note: A link has been removed,

Simply put, our future depends on critical minerals. The Government of Canada is committed to investing in this future, which is why the Canadian Critical Minerals Strategy — launched by the Honourable Jonathan Wilkinson, Minister of Natural Resources, in December 2022 — is backed by up to $3.8 billion in federal funding. [emphases mine] Today [March 7, 2023], Minister Wilkinson announced more details on the implementation of this Strategy. Over $344 million in funding is supporting the following five new programs and initiatives:

  • Critical Minerals Technology and Innovation Program – $144.4 million for the research, development, demonstration, commercialization and adoption of new technologies and processes that support sustainable growth in Canadian critical minerals value chains and associated innovation ecosystems. 
  • Critical Minerals Geoscience and Data Initiative – $79.2 million to enhance the quality and availability of data and digital technologies to support geoscience and mapping that will accelerate the efficient and effective development of Canadian critical minerals value chains, including by identifying critical minerals reserves and developing pathways for sustainable mineral development. 
  • Global Partnerships Program – $70 million to strengthen Canada’s global leadership role in enhancing critical minerals supply chain resiliency through international collaborations related to critical minerals. 
  • Northern Regulatory Initiative – $40 million to advance Canada’s northern and territorial critical minerals agenda by supporting regulatory dialogue, regional studies, land-use planning, impact assessments and Indigenous consultation.
  • Renewal of the Critical Minerals Centre of Excellence (CMCE) – $10.6 million so the CMCE can continue the ongoing development and implementation of the Canadian Critical Minerals Strategy.

Commentary from the mining community

Mariaan Webb wrote a March 29,2023 article about the budget and the response from the mining community for miningweekly.com, Note: Links have been removed,

The 2023 Budget, delivered by Finance Minister Chrystia Freeland on Tuesday, bolsters the ability of the Canadian mining sector to deliver for the country, recognising the industry’s central role in enabling the transition to a net-zero economy, says Mining Association of Canada (MAC) president and CEO Pierre Gratton.

“Without mining, there are no electric vehicles, no clean power from wind farms, solar panels or nuclear energy, [emphasis mine] and no transmission lines,” said Gratton.

What kind of nuclear energy?

There are two kinds of nuclear energy: fission and fusion. (Fission is the one where the atom is split and requires minerals. Fusion energy is how stars are formed. Much less polluting than fission energy, at this time it is not a commercially viable option nor is it close to being so.)

As far as I’m aware, fusion energy does not require any mined materials. So, Gratton appears to be referring to fission nuclear energy when he’s talking about the mining sector and critical minerals.

I have an October 28, 2022 posting, which provides an overview of fusion energy and the various projects designed to capitalize on it.

Smart Cities in Canada

I was happy to be updated on the Smart Cities Challenge. When I last wrote about it (a March 20, 2018 posting; scroll down to the “Smart Cities, the rest of the country, and Vancouver” subhead). I notice that the successful applicants are from Montreal, Quebec; Guelph, Ontario; communities of Nunavut; and Bridgewater, Nova Scotia. It’s about time northern communities got some attention. It’s hard not to notice that central Canada (i.e., Ontario and Quebec) again dominates.

I look forward to hearing more about the new, upcoming challenge.

The quantum crew

I first made note of what appears to be a fracture in the Canadian quantum community in a May 4, 2021 posting (scroll down to the National Quantum Strategy subhead) about the 2021 budget. I made note of it again in a July 26, 2022 posting (scroll down to the Canadian quantum scene subhead).

In my excerpts from the 3.5 Investing in Tomorrow’s Technology section of the 2023 budget, Xanadu Quantum Technologies, headquartered in Toronto, Ontario is singled out with three other companies (none of which are in the quantum computing field). Oddly, D-Wave Systems (located in British Columbia), which as far as I’m aware is the star of Canada’s quantum computing sector, has yet to be singled out in any budget I’ve seen yet. (I’m estimating I’ve reviewed about 10 budgets.)

Canadians in space

Shortly after the 2023 budget was presented, Canadian astronaut Jeremy Hansen was revealed as one of four astronauts to go on a mission to orbit the moon. From a Canadian Broadcasting (CBC) April 3, 2023 news online article by Nicole Mortillaro (Note: A link has been removed),

Jeremy Hansen is heading to the moon.

The 47-year old Canadian astronaut was announced today as one of four astronauts — along with Christina Koch, Victor Glover and Reid Wiseman — who will be part of NASA’s [US National Aeronautics and Space Administration] Artemis II mission.

Hansen was one of four active Canadian astronauts that included Jennifer Sidey-Gibbons, Joshua Kutryk and David Saint-Jacques vying for a seat on the Orion spacecraft set to orbit the moon.

Artemis II is the second step in NASA’s mission to return astronauts to the surface of the moon. 

The astronauts won’t be landing, but rather they will orbit for 10 days in the Orion spacecraft, testing key components to prepare for Artemis III that will place humans back on the moon some time in 2025 for the first time since 1972.

Canada gets a seat on Artemis II due to its contributions to Lunar Gateway, a space station that will orbit the moon. But Canada is also building a lunar rover provided by Canadensys Aerospace.

On Monday [April 3, 2023], Hansen noted there are two reasons a Canadian is going to the moon, adding that it “makes me smile when I say that.”

The first, he said, is American leadership, and the decision to curate an international team.

“The second reason is Canada’s can-do attitude,” he said proudly.

In addition to our ‘can-do attitude,” we’re also spending some big money, i.e., the Canadian government has proposed in its 2023 budget some $2.5B to various space and lunar efforts over the next several years.

Chapter 3 odds and sods

First seen in the 2022 budget, the patent box regime makes a second appearance in the 2023 budget where apparently ‘stakeholders will be engaged’ later this year. At least, they’re not rushing into this. (For the original announcement and an explanation of a patent box regime, see my April 19, 2022 budget review; scroll down to the Review of Tax Support to R&D and Intellectual Property subhead.)

I’m happy to see the Dairy Innovation and Investment Fund. I’m particularly happy to see a focus on finding uses for solids non-fat (SNF) by providing “$333 million over ten years, starting in 2023-24, … research and development of new products based on SNF [emphasis mine], market development for these products, and processing capacity for SNF-based products more broadly.”

This investment contrasts with the approach to cellulose nanocrystals (CNC) derived from wood (i.e., the forest economy), where the Canadian government invested heavily in research and even opened a production facility under the auspices of a company, CelluForce. It was a little problematic.

By 2013, the facility had a stockpile of CNC and nowhere to sell it. That’s right, no market for CNC as there had been no product development. (See my May 8, 2012 posting where that lack is mentioned, specifically there’s a quote from Tim Harper in an excerpted Globe and Mail article. My August 17, 2016 posting notes that the stockpile was diminishing. The CelluForce website makes no mention of it now in 2023.)

It’s good to see the government emphasis on research into developing products for SNFs especially after the CelluForce stockpile and in light of US President Joe Biden’s recent enthusiasm over our critical minerals.

Chapter 4: Advancing Reconciliation and Building a Canada That Works for Everyone

Chapter 4: Advancing Reconciliation and Building a Canada That Works for Everyone offers this, from https://www.budget.canada.ca/2023/report-rapport/toc-tdm-en.html,

4.3 Clean Air and Clean Water

Progress on Biodiversity

Montreal recently hosted the Fifteenth Conference of the Parties (COP15) to the United Nations Convention on Biological Diversity, which led to a new Post-2020 Global Biodiversity Framework. During COP15, Canada announced new funding for biodiversity and conservation measures at home and abroad that will support the implementation of the Global Biodiversity Framework, including $800 million to support Indigenous-led conservation within Canada through the innovative Project Finance for Permanence model.

Protecting Our Freshwater

Canada is home to 20 per cent of the world’s freshwater supply. Healthy lakes and rivers are essential to Canadians, communities, and businesses across the country. Recognizing the threat to freshwater caused by climate change and pollution, the federal government is moving forward to establish a new Canada Water Agency and make major investments in a strengthened Freshwater Action Plan.

  • Budget 2023 proposes to provide $650 million over ten years, starting in 2023-24, to support monitoring, assessment, and restoration work in the Great Lakes, Lake Winnipeg, Lake of the Woods, St. Lawrence River, Fraser River, Saint John River, Mackenzie River, and Lake Simcoe. Budget 2023 also proposes to provide $22.6 million over three years, starting in 2023-24, to support better coordination of efforts to protect freshwater across Canada.
  • Budget 2023 also proposes to provide $85.1 million over five years, starting in 2023-24, with $0.4 million in remaining amortization and $21 million ongoing thereafter to support the creation of the Canada Water Agency [emphasis mine], which will be headquartered in Winnipeg. By the end of 2023, the government will introduce legislation that will fully establish the Canada Water Agency as a standalone entity.

Cleaner and Healthier Ports

Canada’s ports are at the heart of our supply chains, delivering goods to Canadians and allowing our businesses to reach global markets. As rising shipping levels enable and create economic growth and good jobs, the federal government is taking action to protect Canada’s coastal ecosystems and communities.

  • Budget 2023 proposes to provide $165.4 million over seven years, starting in 2023-24, to Transport Canada to establish a Green Shipping Corridor Program to reduce the impact of marine shipping on surrounding communities and ecosystems. The program will help spur the launch of the next generation of clean ships, invest in shore power technology, and prioritize low-emission and low-noise vessels at ports.

Water, water everywhere

I wasn’t expecting to find mention of establishing a Canada Water Agency and details are sketchy other than, It will be in Winnipeg, Manitoba and there will be government funding. Fingers crossed that this agency will do some good work (whatever that might be). Personally, I’d like to see some action with regard to droughts.

In British Columbia (BC) where I live and which most of us think of as ‘water rich’, is suffering under conditions such that our rivers and lakes are at very low levels according to an April 6, 2023 article by Glenda Luymes for the Vancouver Sun (print version, p. A4),

On the North American WaterWatch map, which codes river flows using a series of coloured dots, high flows are represented in various shades of blue while low flows are represented in red hues. On Wednesday [April 5, 2023], most of BC was speckled red, brown and orange, with the majority of the province’s rivers flowing “much below normal.”

“It does not bode well for the fish populations,” said Marvin Rosenau, a fisheries and ecosystems instructor at BCIT [British Columbia Institute of Technology]. …

Rosenau said low water last fall [2022], when much of BC was in the grip of drought, decreased salmon habitat during spawning season. …

BC has already seen small early season wildfires, including one near Merritt last weekend [April 1/2, 2023]. …

Getting back to the Canada Water Agency, there’s this March 29, 2023 CBC news online article by Bartley Kives,

The 2023 federal budget calls for a new national water agency to be based in Winnipeg, provided Justin Trudeau’s Liberal government remains in power long enough to see it established [emphasis mine] in the Manitoba capital.

The budget announced on Tuesday [March 28, 2023] calls for the creation of the Canada Water Agency, a new federal entity with a headquarters in Winnipeg.

While the federal government is still determining precisely what the new agency will do, one Winnipeg-based environmental organization expects it to become a one-stop shop for water science, water quality assessment and water management [emphasis mine].

“This is something that we don’t actually have in this country at the moment,” said Matt McCandless, a vice-president for the non-profit International Institute for Sustainable Development.

Right now, municipalities, provinces and Indigenous authorities take different approaches to managing water quality, water science, flooding and droughts, said McCandless, adding a national water agency could provide more co-ordination.

For now, it’s unknown how many employees will be based at the Canada Water Agency’s Winnipeg headquarters. According to the budget, legislation to create the agency won’t be introduced until later this year [emphasis mine].

That means the Winnipeg headquarters likely won’t materialize before 2024, one year before the Trudeau minority government faces re-election, assuming it doesn’t lose the confidence of the House of Commons beforehand [emphasis mine].

Nonetheless, several Canadian cities and provinces were vying for the Canada Water Agency’s headquarters, including Manitoba.

The budget also calls for $65 million worth of annual spending on lake science and restoration, with an unstated fraction of that cash devoted to Lake Winnipeg.

McCandless calls the spending on water science an improvement over previous budgets.

Kives seems a tad jaundiced but you get that way (confession: I have too) when covering government spending promises.

Part 2 (military spending and general comments) will be posted sometime during the week of April 24-28, 2023.

Teeny adventures, Latent Life, and photonic writing—a March 28, 2023 talk at 1 pm PT at the University of British Columbia

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After reading the latest newsletter (received via email on March 20, 2023), featuring Scott Billings’ talk ‘Latest Life’, from the University of British Columbia’s (UBC) Belkin Gallery I was reminded of a book produced at the nanoscale back in 2009 (May 21, 2009 posting; scroll down to the final paragraph) and which I wrote about again in 2012 (October 12, 2012 posting) when ‘Teeny Ted from Turnip Town’ was added to the Guinness Book of Records as the world’s smallest book. (‘Teeny Ted’ also has a Wikipedia entry.)

The March 20, 2023 Belkin Gallery (also known as the Morris and Helen Belkin Art Gallery) newsletter is promoting the next Ars Scientia events (the information can also be found on this webpage),

We hope you’ll join us this spring for talks and presentations related
to our ongoing research projects in art and science, and the
Anthropocene. Over the past years, we have developed a deep and
abiding interdisciplinary research practice related to these themes,
working with diverse disciplines that are fortified through oppositions,
collaborations and the celebration of new perspectives. We have shared
our different fields of experience, expertise and resources to catalyze
meaningful responses to research, pedagogy, communication and outreach,
and in doing so build responses that are more than the sum of their
parts. This methodology of bringing the unique perspectives and
practices of artists and curators to academic units presents an
opportunity to foster new modes of knowledge exchange. In this spirit,
we hope you’ll join us in thinking through these critical areas of
inquiry.

Ars Scientia

Building on exhibitions like The Beautiful Brain and Drift, the Ars Scientia research project connects artists with physicists to explore the intersections between the disciplines of art and science. A collaboration between the Belkin, the Department of Physics and Astronomy, and the Blusson Quantum Matter Institute [QMI], [emphases mine] this spring’s artists’ residencies culminate in a series of talks by JG Mair, Scott Billings and Timothy Taylor, followed by a symposium in May with keynote speaker Kavita Philip.

Tuesday, March 28 [2023] at 1 pm [PT]

Artist Talk with Scott Billings

Tuesday, April 4 [2023] at 2 pm [PT]

Artist Talk with Timothy Taylor

Monday, May 15 [2023]

Symposium with keynote by Kavita Philip

I have more details (logistics in particular) about the Scott Billings talk, from the QMI Ars Scientia Artist Talks 2023: Latent Life by Scott Billings events page,

Please join Scott Billings for Latent Life, a presentation based on his recent research in the Ars Scientia residency. Drawing from a 1933 lecture in which Neils Bohr asserts that the impossibility of using a physical explanation for the phenomenon of life is analogous to the insufficiency of using a mechanical analysis to understand phenomena of the atom, Billings will discuss his seemingly conflicting dual practice as both visual artist and mechanical engineer. Reflecting upon a preoccupation with the animality of cinematic machine, among (many) other things, Billings will relay his recent direct experience with photonic writing [emphasis mine] at QMI’s NanoFab Lab and the wonderful new conundrum of making and exhibiting micro-sculptures that are far too small to see with the naked eye.

Date & time: March 28 [2023], 1:00-2:00pm [PT]

Location: 311, Brimacombe Building (2355 East Mall, Vancouver, BC V6T 1Z4)

For more information on this event, please click here.

Photonic writing and sculpture? I’m guessing the word ‘writing’ in this context doesn’t mean what it usually means. Still, it did bring back memories of the world’s smallest book. I always did wonder about the point of producing book that couldn’t be read without expensive equipment. And now, there’s sculpture that can’t be seen.

I hope Billings’s talk will shed some light on this phenomenon of artists and writers creating objects than cannot be seen with the naked eye. Scientists do this sort of thing for fun but the motivation for writers and artists seems to be about proving something and not at all about play.

Ars Scientia talks at the University of British Columbia (UBC) in February, March, and April 2023

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The University of British Columbia (UBC; Vancouver, Canada) partnership between its Stewart Blusson Quantum Matter Institute (Blusson QMI), its Morris & Helen Belkin Art Gallery (the Belkin), and its Department of Physics and Astronomy (UBC PHAS) is known as Ars Scientia. (See my September 6, 2021 posting for more; scroll down to the Ars Scientia subhead.)

It’s been a while since I’ve seen any notices about Ars Scientia events but the Belkin Gallery announced three in a February 15, 2023 notice (received via email),

Ars Scientia Artist Talks

Room 311, Brimacombe Building, 2355 East Mall, UBC

Join us for a series of artist talks hosted at UBC’s Stewart Blusson Quantum Matter Institute (Blusson QMI). Our current cohort of Ars Scientia artists-in-residence have formed collaborative partnerships with scientists and engineers while embedded at Blusson QMI.

Tuesday, February 21 [2023] at 2 pm

JG Mair

Tuesday, March 28 [2023] at 1 pm

Scott Billings

Tuesday, April 2 [2023] at 2 pm

Timothy Taylor

IMAGE (ABOVE): AN ARS SCIENTIA COLLABORATION BETWEEN VISUAL ARTIST JG MAIR AND PHYSICIST ALANNAH HALLAS AT BLUSSON QMI; THE TWO WORKED TOGETHER IN HALLAS’S LAB TO TURN “INSIGHTFUL FAILURES” OF HIGH-ENTROPY OXIDES (A TYPE OF QUANTUM MATERIAL) INTO AN ARTIST’S MEDIUM – PAINT. PHOTO: RACHEL TOPHAM PHOTOGRAPHY.

I have found more details about the upcoming talk here on the Belkin Gallery’s Artist Talks: JG Mair, Scott Billings and Timothy Taylor events page,

Artist Talk with JG Mair, Tuesday, 21 February [2023] at 2 pm

Please join visual and media artist JG Mair for a discussion about his art practice and experiences as a collaborative participant in the Ars Scientia residency. As part of his talk, Mair will present one of his major works, Chroma Chamber, a web-based new media art installation that investigates human expectations of vision and machine algorithms by programmatically collating real-time Google image results to surround the viewer with the distilled colour of the words they speak. Visit Blusson QMI for more details. [Note 1: On the Blusson QMI page, the talk is titled: Algorithmic allegories by JG Mair; Note 2: You’ll find a map showing the Brimacombe building location.]

I wasn’t able to find out more about the other talks but I did get more information about the three artists, Belkin Gallery’s Artist Talks: JG Mair, Scott Billings and Timothy Taylor events page.

JG Mair is a Vancouver-based multidisciplinary artist and media designer specializing in mixed media, web and audio. He has a BFA from the University of Victoria and a BEd from the University of British Columbia. Mair has been working in the areas of both traditional and digital contemporary art and as a sound designer for various game studios developing titles for publishers including Apple, Electronic Arts, Microsoft and Netflix. Mair has had exhibitions and residencies in Canada, USA, South Korea and Japan.

Scott Billings is a visual artist, industrial designer and engineer based in Vancouver. His sculptures and video installations have been described as existing somewhere between cinema and automata. Centering on issues of animality, mobility and spectatorship, Billings’s work examines the mimetic relationship between the physical apparatus and the virtual motion it delivers. In what ways does the apparatus itself reveal both the mechanisms of causality and its own dormant animal quality? Billings addresses this question under the pursuit of the technological conundrum and a preoccupation with precise geometry and logic. Billings holds an MFA from the University of British Columbia, a BFA from Emily Carr University and a BASc in Mechanical Engineering from the University of Waterloo. He teaches at UBC and Emily Carr as a sessional instructor. Billings is represented by Wil Aballe Art Projects.

Timothy Taylor is an Associate Professor and Graduate Advisor at the School of Creative Writing. He is also a bestselling and award-winning author of eight book-length works of fiction and nonfiction, a prolific journalist, and creative nonfiction writer. In addition to his writing and teaching at UBC, Taylor travels widely, having in recent years spent time on assignment in China, Tibet, Japan, Dubai, Brazil, the Canadian arctic and other places. He lives in Point Grey Vancouver with his wife, his son, and a pair of Brittany Spaniels named Keaton and Murphy.

Hopefully, the talk is a little more accessible than its description.

Data storytelling in libraries

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I had no idea that thee was such enthusiasm for data storytelling but it seems libraries require a kit for the topic. From an August 30, 2022 University of Illinois School of Information Sciences news release (also on EurekAlert), Note: A link has been removed,

A new project led by Associate Professor Kate McDowell and Assistant Professor Matthew Turk of the School of Information Sciences (iSchool) at the University of Illinois Urbana-Champaign will help libraries tell data stories that connect with their audiences. Their project, “Data Storytelling Toolkit for Librarians,” has received a two-year, $99,330 grant from the Institute of Museum and Library Services (IMLS grant RE-250094-OLS-21), under the Laura Bush 21st Century Librarian Program, which supports innovative research by untenured, tenure-track faculty.

“There are thousands of librarians who are skittish about data but love stories,” explained McDowell, who co-teaches a data storytelling course at the iSchool with Turk. “And there are hundreds of librarians who see data as fundamental, but until those librarians have a language through which to connect with the passions of the thousands who love stories, this movement toward strategic data use in the field of libraries will be stifled, along with the potential collaborative creativity of librarians.”

The data storytelling toolkit will provide a set of easy-to-adapt templates, which librarians can use to move quickly from data to story to storytelling. Librarians will be able to use the toolkit to plug in data they already have and generate data visualization and narrative structure options.

“To give an example, public libraries need to communicate employment impact. In this case, the data story will include who has become employed based on library services, how (journey map showing a visual sequence of steps from job seeking to employment), a structure for the story of an individual’s outcomes, and a strong data visualization strategy for communicating this impact,” said McDowell.

According to the researchers, the toolkit will be clearly defined so that librarians understand the potential for communicating with data but also fully adaptable to each librarian’s setting and to the communication needs inside the organization and with the public. The project will focus on community college and public libraries, with initial collaborators to include Ericson Public Library in Boone, Iowa; Oregon City (OR) Public Library; Moraine Valley Community College in Palos Hills, Illinois; Jackson State Community College in Jackson, Tennessee; and The Urbana Free Library.

McDowell’s storytelling research has involved training collaborations with advancement staff both at the University of Illinois Urbana-Champaign and the University of Illinois system; storytelling consulting work for multiple nonprofits including the 50th anniversary of the statewide Prairie Rivers Network that protects Illinois water; and storytelling lectures for the Consortium of Academic and Research Libraries in Illinois (CARLI). McDowell researches and publishes in the areas of storytelling at work, social justice storytelling, and what library storytelling can teach the information sciences about data storytelling. She holds both an MS and PhD in library and information science from Illinois.

Turk also holds an appointment with the Department of Astronomy in the College of Liberal Arts and Sciences at the University of Illinois. His research focuses on how individuals interact with data and how that data is processed and understood. He is a recipient of the prestigious Gordon and Betty Moore Foundation’s Moore Investigator Award in Data-Driven Discovery. Turk holds a PhD in physics from Stanford University.

I found some earlier information about a data storytelling course taught by the two researchers, from a September 25, 2019 University of Illinois School of Information Sciences news release, which provides some additional insight,

Collecting and understanding data is important, but equally important is the ability to tell meaningful stories based on data. Students in the iSchool’s Data Science Storytelling course (IS 590DST) learn data visualization as well as storytelling techniques, a combination that will prove valuable to their employers as they enter the workforce.

The course instructors, Associate Professor and Interim Associate Dean for Academic Affairs Kate McDowell and Assistant Professor Matthew Turk, introduced Data Science Storytelling in fall 2017. The course combines McDowell’s research interests in storytelling practices and applications and Turk’s research interests in data analysis and visualization.

Students in the course learn storytelling concepts, narrative theories, and performance techniques as well as how to develop stories in a collaborative workshop style. They also work with data visualization toolkits, which involves some knowledge of coding.

Ashley Hetrick (MS ’18) took Data Science Storytelling because she wanted “the skills to be able to tell the right story when the time is right for it.” She appreciated the practical approach, which allowed the students to immediately apply the skills they learned, such as developing a story structure and using a pandas DataFrame to support and build a story. Hetrick is using those skills in her current work as assistant director for research data engagement and education at the University of Illinois.

“I combine tools and methods from data science and analytics with storytelling to make sense of my unit’s data and to help researchers make sense of theirs,” she said. “In my experience, few researchers like data for its own sake. They collect, care for, and analyze data because they’re after what all storytellers are after: meaning. They want to find the signal in all of this noise. And they want others to find it too, perhaps long after their own careers are complete. Each dataset is a story and raw material for stories waiting to be told.”

According to Turk, the students who have enrolled in the course have been outstanding, “always finding ways to tell meaningful stories from data.” He hopes they leave the class with an understanding that stories permeate their lives and that shaping the stories they tell others and about others is a responsibility they carry with them.

“One reason that this course means a lot to me is because it gives students the opportunity to really bring together the different threads of study at the iSchool,” Turk said. “It’s a way to combine across levels of technicality, and it gives students permission to take a holistic approach to how they present data.”

I didn’t put much effort into it but did find three other courses on data storytelling, one at the University of Texas (my favourite), one at the University of Toronto, and one (Data Visualization and Storytelling) at the University of British Columbia. The one at the University of British Columbia is available through the business school, the other two are available through information/library science faculties.

Ionic skin for ‘smart’ skin

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An April 28, 2022 University of British Columbia (UBC) news release (also on EurekAlert) announces a step forward in the attempt to create ‘smart’ skin, Note: Links have been removed,

In the quest to build smart skin that mimics the sensing capabilities of natural skin, ionic skins have shown significant advantages. They’re made of flexible, biocompatible hydrogels that use ions to carry an electrical charge. In contrast to smart skins made of plastics and metals, the hydrogels have the softness of natural skin. This offers a more natural feel to the prosthetic arm or robot hand they are mounted on, and makes them comfortable to wear.

These hydrogels can generate voltages when touched, but scientists did not clearly understand how — until a team of researchers at UBC devised a unique experiment, published today in Science.

“How hydrogel sensors work is they produce voltages and currents in reaction to stimuli, such as pressure or touch – what we are calling a piezoionic effect. But we didn’t know exactly how these voltages are produced,” said the study’s lead author Yuta Dobashi, who started the work as part of his master’s in biomedical engineering at UBC.

Working under the supervision of UBC researcher Dr. John Madden, Dobashi devised hydrogel sensors containing salts with positive and negative ions of different sizes. He and collaborators in UBC’s physics and chemistry departments applied magnetic fields to track precisely how the ions moved when pressure was applied to the sensor.

“When pressure is applied to the gel, that pressure spreads out the ions in the liquid at different speeds, creating an electrical signal. Positive ions, which tend to be smaller, move faster than larger, negative ions. This results in an uneven ion distribution which creates an electric field, which is what makes a piezoionic sensor work.”

The researchers say this new knowledge confirms that hydrogels work in a similar way to how humans detect pressure, which is also through moving ions in response to pressure, inspiring potential new applications for ionic skins.

“The obvious application is creating sensors that interact directly with cells and the nervous system, since the voltages, currents and response times are like those across cell membranes,” says Dr. Madden, an electrical and computer engineering professor in UBC’s faculty of applied science. “When we connect our sensor to a nerve, it produces a signal in the nerve. The nerve, in turn, activates muscle contraction.”

“You can imagine a prosthetic arm covered in an ionic skin. The skin senses an object through touch or pressure, conveys that information through the nerves to the brain, and the brain then activates the motors required to lift or hold the object. With further development of the sensor skin and interfaces with nerves, this bionic interface is conceivable.”

Another application is a soft hydrogel sensor worn on the skin that can monitor a patient’s vital signs while being totally unobtrusive and generating its own power.

Dobashi, who’s currently completing his PhD work at the University of Toronto, is keen to continue working on ionic technologies after he graduates.

“We can imagine a future where jelly-like ‘iontronics’ are used for body implants. Artificial joints can be implanted, without fear of rejection inside the human body. Ionic devices can be used as part of artificial knee cartilage, adding a smart sensing element.  A piezoionic gel implant might release drugs based on how much pressure it senses, for example.”

Dr. Madden added that the market for smart skins is estimated at $4.5 billion in 2019 and it continues to grow. “Smart skins can be integrated into clothing or placed directly on the skin, and ionic skins are one of the technologies that can further that growth.”

The research includes contributions from UBC chemistry PhD graduate Yael Petel and Carl Michal, UBC professor of physics, who used the interaction between strong magnetic fields and the nuclear spins of ions to track ion movements within the hydrogels. Cédric Plesse, Giao Nguyen and Frédéric Vidal at CY Cergy Paris University in France helped develop a new theory on how the charge and voltage are generated in the hydrogels.

Interview language(s): English (Dobashi, Madden), French (Plesse, Madden), Japanese (Dobashi)

Here’s a link to and a citation for the paper,

Piezoionic mechanoreceptors: Force-induced current generation in hydrogels by
Yuta Dobashi, Dickson Yao, Yael Petel, Tan Ngoc Nguyen, Mirza Saquib Sarwar, Yacine Thabet, Cliff L. W. Ng, Ettore Scabeni Glitz, Giao Tran Minh Nguyen, Cédric Plesse, Frédéric Vidal, Carl A. Michal and John D. W. Madden. Science • 28 Apr 2022 • Vol 376, Issue 6592 • pp. 502-507 • DOI: 10.1126/science.aaw1974

This paper is behind a paywall.

Are we spending money on the right research? Government of Canada launches Advisory Panel

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it’s a little surprising that this is not being managed by the Council of Canadian Academies (CCA) but perhaps their process is not quite nimble enough (from an October 6, 2022 Innovation, Science and Economic Development Canada news release),

Government of Canada launches Advisory Panel on the Federal Research Support System

Members to recommend enhancements to system to position Canadian researchers for success

October 6, 2022 – Ottawa, Ontario

Canada’s success is in large part due to our world-class researchers and their teams who are globally recognized for unleashing bold new ideas, driving technological breakthroughs and addressing complex societal challenges. The Government of Canada recognizes that for Canada to achieve its full potential, support for science and research must evolve as Canadians push beyond what is currently imaginable and continue to find Canadian-made solutions to the world’s toughest problems.

Today [October 6, 2022], the Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry, and the Honourable Jean-Yves Duclos, Minister of Health, launched the Advisory Panel on the Federal Research Support System. Benefiting from the insights of leaders in the science, research and innovation ecosystem, the panel will provide independent, expert policy advice on the structure, governance and management of the federal system supporting research and talent. This will ensure that Canadian researchers are positioned for even more success now and in the future.

The panel will focus on the relationships among the federal research granting agencies—the Natural Sciences and Engineering Research Council of Canada, the Social Sciences and Humanities Research Council of Canada and the Canadian Institutes of Health Research—and the relationship between these agencies and the Canada Foundation for Innovation.

As the COVID-19 pandemic and climate crisis have shown, addressing the world’s most pressing challenges requires greater collaboration within the Canadian research community, government and industry, as well as with the international community. A cohesive and agile research support system will ensure Canadian researchers can quickly and effectively respond to the questions of today and tomorrow. Optimizing Canada’s research support system will equip researchers to transcend disciplines and borders, seize new opportunities and be responsive to emerging needs and interests to improve Canadians’ health, well-being and prosperity.

Quotes

“Canada is known for world-class research thanks to the enormous capabilities of our researchers. Canadian researchers transform curiosity into bold new ideas that can significantly enhance Canadians’ lives and well-being. With this advisory panel, our government will ensure our support for their research is just as cutting-edge as Canada’s science and research community.”
– The Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry

“Our priority is to support Canada’s world-class scientific community so it can respond effectively to the challenges of today and the future. That’s why we are leveraging the expertise and perspectives of a newly formed advisory panel to maximize the impact of research and downstream innovation, which contributes significantly to Canadians’ well-being and prosperity.”
– The Honourable Jean-Yves Duclos, Minister of Health

Quick facts

The Advisory Panel on the Federal Research Support System has seven members, including the Chair. The members were selected by the Minister of Innovation, Science and Industry and the Minister of Health. The panel will consult with experts and stakeholders to draw on their diverse experiences, expertise and opinions. 

Since 2016, the Government of Canada has committed more than $14 billion to support research and science across Canada. 

Here’s a list of advisory panel members I’ve assembled from the Advisory Panel on the Federal Research Support System: Member biographies webpage,

  • Frédéric Bouchard (Chair) is Dean of the Faculty of Arts and Sciences at the Université de Montréal, where he has been a professor of philosophy of science since 2005.
  • Janet Rossant is a Senior Scientist Emeritus in the Developmental and Stem Cell Biology Program, the Hospital for Sick Children and a Professor Emeritus at the University of Toronto’s Department of Molecular Genetics.
  • [Gilles Patry] is Professor Emeritus and President Emeritus at the University of Ottawa. Following a distinguished career as a consulting engineer, researcher and university administrator, Gilles Patry is now a consultant and board director [Royal Canadian Mint].
  • Yolande E. Chan joined McGill University’s Desautels Faculty of Management as Dean and James McGill Professor in 2021. Her research focuses on innovation, knowledge strategy, digital strategy, digital entrepreneurship, and business-IT alignment.
  • Laurel Schafer is a Professor at the Department of Chemistry at the University of British Columbia. Her research focuses on developing novel organometallic catalysts to carry out difficult transformations in small molecule organic chemistry.
  • Vianne Timmons is the President and Vice-Chancellor of Memorial University of Newfoundland since 2020. She is a nationally and internationally recognized researcher and advocate in the field of inclusive education.
  • Dr. Baljit Singh is a highly accomplished researcher, … . He began his role as Vice-President Research at the University of Saskatchewan in 2021, after serving as Dean of the University of Calgary Faculty of Veterinary Medicine (2016 – 2020), and as Associate Dean of Research at the Western College of Veterinary Medicine at the University of Saskatchewan (2010 – 2016).

Nobody from the North. Nobody who’s worked there or lived there or researched there. It’s not the first time I’ve noticed a lack of representation for the North.

Canada’s golden triangle (Montréal, Toronto, Ottawa) is well represented and, as is often the case, there’s representation for other regions: one member from the Prairies, one member from the Maritimes or Atlantic provinces, and one member from the West.

The mandate indicates they could have five to eight members. With seven spots filled, they could include one more member, one from the North.

Even if they don’t add an eighth member, I’m not ready to abandon all hope for involvement from the North when there’s this, from the mandate,

Communications and deliverables

In pursuing its mandate, and to strengthen its advice, the panel may engage with experts and stakeholders to expand access [emphasis mine] to diverse experience, expertise and opinion, and enhance members’ understanding of the topics at hand.

To allow for frank and open discussion, internal panel deliberations among members will be closed.

The panel will deliver a final confidential report by December 2022 [emphasis mine] to the Ministers including recommendations and considerations regarding the modernization of the research support system. A summary of the panel’s observations on the state of the federal research support system may be made public once its deliberations have concluded. The Ministers may also choose to seek confidential advice and/or feedback from the panel on other issues related to the research system.

The panel may also be asked to deliver an interim confidential report to the Ministers by November 2022 [emphases mine], which will provide the panel’s preliminary observations up to that point.

it seems odd there’s no mention of the Pan-Canadian Artificial Intelligence Strategy. It’s my understanding that the funding goes directly from the federal government to the Canadian Institute for Advanced Research (CIFAR), which then distributes the funds. There are other unmentioned science funding agencies, e.g., the National Research Council of Canada and Genome Canada, which (as far as I know) also receive direct funding. It seems that the panel will not be involved in a comprehensive review of Canada’s research support ecosystem.

Plus, I wonder why everything is being kept ‘confidential’. According the government news release, the panel is tasked with finding ways of “optimizing Canada’s research support system.” Do they have security concerns or is this a temporary state of affairs while the government analysts examine the panel’s report?

Documentary “NNI Retrospective Video: Creating a National Initiative” celebrates the US National Nanotechnology Initiative (NNI) and a lipid nanoparticle question

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i stumbled across an August 4, 2022 tvworldwide.com news release about a video celbrating the US National Nanotechnology Initiative’s (NNI) over 20 years of operation, (Note: A link has been removed),

TV Worldwide, since 1999, a pioneering web-based global TV network, announced that it was releasing a video trailer highlighting a previously released documentary on NNI over the past 20 years, entitled, ‘NNI Retrospective Video: Creating a National Initiative’.

The video and its trailer were produced in cooperation with the National Nanotechnology Initiative (NNI), the National Science Foundation and the University of North Carolina Greensboro.

Video Documentary Synopsis

Nanotechnology is a megatrend in science and technology at the beginning of the 21 Century. The National Nanotechnology Initiative (NNI) has played a key role in advancing the field after it was announced by President Clinton in January 2000. Neil Lane was Presidential Science Advisor. Mike Roco proposed the initiative at the White House in March 1999 on behalf of the Interagency Working Group on Nanotechnology and was named the founding Chair of NSET to implement NNI beginning with Oct. 2000. NSF led the preparation of this initiative together with other agencies including NIH, DoD, DOE, NASA, and EPA. Jim Murday was named the first Director of NNCO to support NSET. The scientific and societal success of NNI has been recognized in the professional communities, National Academies, PCAST, and Congress. Nanoscale science, engineering and technology are strongly connected and collectively called Nanotechnology.

This video documentary was made after the 20th NNI grantees conference at NSF. It is focused on creating and implementing NNI, through video interviews. The interviews focused on three questions: (a) Motivation and how NNI started; (b) The process and reason for the success in creating NNI; (c) Outcomes of NNI after 20 years, and how the initial vision has been realized.

About the National Nanotechnology Initiative (NNI)

The National Nanotechnology Initiative (NNI) is a U.S. Government research and development (R&D) initiative. Over thirty Federal departments, independent agencies, and commissions work together toward the shared vision of a future in which the ability to understand and control matter at the nanoscale leads to ongoing revolutions in technology and industry that benefit society. The NNI enhances interagency coordination of nanotechnology R&D, supports a shared infrastructure, enables leveraging of resources while avoiding duplication, and establishes shared goals, priorities, and strategies that complement agency-specific missions and activities.

The NNI participating agencies work together to advance discovery and innovation across the nanotechnology R&D enterprise. The NNI portfolio encompasses efforts along the entire technology development pathway, from early-stage fundamental science through applications-driven activities. Nanoscience and nanotechnology are prevalent across the R&D landscape, with an ever-growing list of applications that includes nanomedicine, nanoelectronics, water treatment, precision agriculture, transportation, and energy generation and storage. The NNI brings together representatives from multiple agencies to leverage knowledge and resources and to collaborate with academia and the private sector, as appropriate, to promote technology transfer and facilitate commercialization. The breadth of NNI-supported infrastructure enables not only the nanotechnology community but also researchers from related disciplines.

In addition to R&D efforts, the NNI is helping to build the nanotechnology workforce of the future, with focused efforts from K–12 through postgraduate research training. The responsible development of nanotechnology has been an integral pillar of the NNI since its inception, and the initiative proactively considers potential implications and technology applications at the same time. Collectively, these activities ensure that the United States remains not only the place where nanoscience discoveries are made, but also where these discoveries are translated and manufactured into products to benefit society.

I’m embedding the trailer here and a lipid nanoparticle question follows (The origin story told in Vancouver [Canada] is that the work was started at the University of British Columbia by Pieter Quilty.),

I was curious about what involvement the US NNI had with the development of lipid nanoparticles (LNPs) and found a possible answer to that question on Wikipedia The LNP Wikipedia entry certainly gives the bulk of the credit to Quilty but there was work done prior to his involvement (Note: Links have been removed),

A significant obstacle to using LNPs as a delivery vehicle for nucleic acids is that in nature, lipids and nucleic acids both carry a negative electric charge—meaning they do not easily mix with each other.[19] While working at Syntex in the mid-1980s,[20] Philip Felgner [emphasis mine] pioneered the use of artificially-created cationic lipids (positively-charged lipids) to bind lipids to nucleic acids in order to transfect the latter into cells.[21] However, by the late 1990s, it was known from in vitro experiments that this use of cationic lipids had undesired side effects on cell membranes.[22]

During the late 1990s and 2000s, Pieter Cullis of the University of British Columbia [emphasis mine] developed ionizable cationic lipids which are “positively charged at an acidic pH but neutral in the blood.”[8] Cullis also led the development of a technique involving careful adjustments to pH during the process of mixing ingredients in order to create LNPs which could safely pass through the cell membranes of living organisms.[19][23] As of 2021, the current understanding of LNPs formulated with such ionizable cationic lipids is that they enter cells through receptor-mediated endocytosis and end up inside endosomes.[8] The acidity inside the endosomes causes LNPs’ ionizable cationic lipids to acquire a positive charge, and this is thought to allow LNPs to escape from endosomes and release their RNA payloads.[8]

From 2005 into the early 2010s, LNPs were investigated as a drug delivery system for small interfering RNA (siRNA) drugs.[8] In 2009, Cullis co-founded a company called Acuitas Therapeutics to commercialize his LNP research [emphasis mine]; Acuitas worked on developing LNPs for Alnylam Pharmaceuticals’s siRNA drugs.[24] In 2018, the FDA approved Alnylam’s siRNA drug Onpattro (patisiran), the first drug to use LNPs as the drug delivery system.[3][8]

By that point in time, siRNA drug developers like Alnylam were already looking at other options for future drugs like chemical conjugate systems, but during the 2010s, the earlier research into using LNPs for siRNA became a foundation for new research into using LNPs for mRNA.[8] Lipids intended for short siRNA strands did not work well for much longer mRNA strands, which led to extensive research during the mid-2010s into the creation of novel ionizable cationic lipids appropriate for mRNA.[8] As of late 2020, several mRNA vaccines for SARS-CoV-2 use LNPs as their drug delivery system, including both the Moderna COVID-19 vaccine and the Pfizer–BioNTech COVID-19 vaccines.[3] Moderna uses its own proprietary ionizable cationic lipid called SM-102, while Pfizer and BioNTech licensed an ionizable cationic lipid called ALC-0315 from Acuitas.[8] [emphases mine]

You can find out more about Philip Felgner here on his University of California at Irvine (UCI) profile page.

I wish they had been a little more careful about some of the claims that Thomas Kalil made about lipid nanoparticles in both the trailer and video but, getting back to the trailer (approx. 3 mins.) and the full video (approx. 25 mins.), either provides insight into a quite extraordinary effort.

Bravo to the US NNI!

Quantum Mechanics & Gravity conference (August 15 – 19, 2022) launches Vancouver (Canada)-based Quantum Gravity Institute and more

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I received (via email) a July 21, 2022 news release about the launch of a quantum science initiative in Vancouver (BTW, I have more about the Canadian quantum scene later in this post),

World’s top physicists unite to tackle one of Science’s greatest
mysteries

Vancouver-based Quantum Gravity Society leads international quest to
discover Theory of Quantum Gravity

Vancouver, B.C. (July 21, 2022): More than two dozen of the world’s
top physicists, including three Nobel Prize winners, will gather in
Vancouver this August for a Quantum Gravity Conference that will host
the launch a Vancouver-based Quantum Gravity Institute (QGI) and a
new global research collaboration that could significantly advance our
understanding of physics and gravity and profoundly change the world as
we know it.

For roughly 100 years, the world’s understanding of physics has been
based on Albert Einstein’s General Theory of Relativity (GR), which
explored the theory of space, time and gravity, and quantum mechanics
(QM), which focuses on the behaviour of matter and light on the atomic
and subatomic scale. GR has given us a deep understanding of the cosmos,
leading to space travel and technology like atomic clocks, which govern
global GPS systems. QM is responsible for most of the equipment that
runs our world today, including the electronics, lasers, computers, cell
phones, plastics, and other technologies that support modern
transportation, communications, medicine, agriculture, energy systems
and more.

While each theory has led to countless scientific breakthroughs, in many
cases, they are incompatible and seemingly contradictory. Discovering a
unifying connection between these two fundamental theories, the elusive
Theory of Quantum Gravity, could provide the world with a deeper
understanding of time, gravity and matter and how to potentially control
them. It could also lead to new technologies that would affect most
aspects of daily life, including how we communicate, grow food, deliver
health care, transport people and goods, and produce energy.

“Discovering the Theory of Quantum Gravity could lead to the
possibility of time travel, new quantum devices, or even massive new
energy resources that produce clean energy and help us address climate
change,” said Philip Stamp, Professor, Department of Physics and
Astronomy, University of British Columbia, and Visiting Associate in
Theoretical Astrophysics at Caltech [California Institute of Technology]. “The potential long-term ramifications of this discovery are so incredible that life on earth 100
years from now could look as miraculous to us now as today’s
technology would have seemed to people living 100 years ago.”

The new Quantum Gravity Institute and the conference were founded by the
Quantum Gravity Society, which was created in 2022 by a group of
Canadian technology, business and community leaders, and leading
physicists. Among its goals are to advance the science of physics and
facilitate research on the Theory of Quantum Gravity through initiatives
such as the conference and assembling the world’s leading archive of
scientific papers and lectures associated with the attempts to reconcile
these two theories over the past century.

Attending the Quantum Gravity Conference in Vancouver (August 15-19 [2022])
will be two dozen of the world’s top physicists, including Nobel
Laureates Kip Thorne, Jim Peebles and Sir Roger Penrose, as well as
physicists Baron Martin Rees, Markus Aspelmeyer, Viatcheslav Mukhanov
and Paul Steinhardt. On Wednesday, August 17, the conference will be
open to the public, providing them with a once-in-a-lifetime opportunity
to attend keynote addresses from the world’s pre-eminent physicists.
… A noon-hour discussion on the importance of the
research will be delivered by Kip Thorne, the former Feynman Professor
of physics at Caltech. Thorne is well known for his popular books, and
for developing the original idea for the 2014 film “Interstellar.” He
was also crucial to the development of the book “Contact” by Carl Sagan,
which was also made into a motion picture.

“We look forward to welcoming many of the world’s brightest minds to
Vancouver for our first Quantum Gravity Conference,” said Frank
Giustra, CEO Fiore Group and Co-Founder, Quantum Gravity Society. “One
of the goals of our Society will be to establish Vancouver as a
supportive home base for research and facilitate the scientific
collaboration that will be required to unlock this mystery that has
eluded some of the world’s most brilliant physicists for so long.”

“The format is key,” explains Terry Hui, UC Berkley Physics alumnus
and Co-Founder, Quantum Gravity Society [and CEO of Concord Pacific].
“Like the Solvay Conference nearly 100 years ago, the Quantum Gravity
Conference will bring top scientists together in salon-style gatherings. The
relaxed evening format following the conference will reduce barriers and
allow these great minds to freely exchange ideas. I hope this will help accelerate
the solution of this hundred-year bottleneck between theories relatively
soon.”

“As amazing as our journey of scientific discovery has been over the
past century, we still have so much to learn about how the universe
works on a macro, atomic and subatomic level,” added Paul Lee,
Managing Partner, Vanedge Capital, and Co-Founder, Quantum Gravity
Society. “New experiments and observations capable of advancing work
on this scientific challenge are becoming increasingly possible in
today’s physics labs and using new astronomical tools. The Quantum
Gravity Society looks forward to leveraging that growing technical
capacity with joint theory and experimental work that harnesses the
collective expertise of the world’s great physicists.”

About Quantum Gravity Society

Quantum Gravity Society was founded in Vancouver, Canada in 2020 by a
group of Canadian business, technology and community leaders, and
leading international physicists. The Society’s founding members
include Frank Giustra (Fiore Group), Terry Hui (Concord Pacific), Paul
Lee and Moe Kermani (Vanedge Capital) and Markus Frind (Frind Estate
Winery), along with renowned physicists Abhay Ashtekar, Sir Roger
Penrose, Philip Stamp, Bill Unruh and Birgitta Whaley. For more
information, visit Quantum Gravity Society.

About the Quantum Gravity Conference (Vancouver 2022)

The inaugural Quantum Gravity Conference (August 15-19 [2022]) is presented by
Quantum Gravity Society, Fiore Group, Vanedge Capital, Concord Pacific,
The Westin Bayshore, Vancouver and Frind Estate Winery. For conference
information, visit conference.quantumgravityinstitute.ca. To
register to attend the conference, visit Eventbrite.com.

The front page on the Quantum Gravity Society website is identical to the front page for the Quantum Mechanics & Gravity: Marrying Theory & Experiment conference website. It’s probable that will change with time.

This seems to be an in-person event only.

The site for the conference is in an exceptionally pretty location in Coal Harbour and it’s close to Stanley Park (a major tourist attraction),

The Westin Bayshore, Vancouver
1601 Bayshore Drive
Vancouver, BC V6G 2V4
View map

Assuming that most of my readers will be interested in the ‘public’ day, here’s more from the Wednesday, August 17, 2022 registration page on Eventbrite,

Tickets:

  • Corporate Table of 8 all day access – includes VIP Luncheon: $1,100
  • Ticket per person all day access – includes VIP Luncheon: $129
  • Ticket per person all day access (no VIP luncheon): $59
  • Student / Academia Ticket – all day access (no VIP luncheon): $30

Date:

Wednesday, August 17, 2022 @ 9:00 a.m. – 5:15 p.m. (PT)

Schedule:

  • Registration Opens: 8:00 a.m.
  • Morning Program: 9:00 a.m. – 12:30 p.m.
  • VIP Lunch: 12:30 p.m. – 2:30 p.m.
  • Afternoon Program: 2:30 p.m. – 4:20 p.m.
  • Public Discussion / Debate: 4:20 p.m. – 5:15 p.m.

Program:

9:00 a.m. Session 1: Beginning of the Universe

  • Viatcheslav Mukhanov – Theoretical Physicist and Cosmologist, University of Munich
  • Paul Steinhardt – Theoretical Physicist, Princeton University

Session 2: History of the Universe

  • Jim Peebles, 2019 Nobel Laureate, Princeton University
  • Baron Martin Rees – Cosmologist and Astrophysicist, University of Cambridge
  • Sir Roger Penrose, 2020 Nobel Laureate, University of Oxford (via zoom)

12:30 p.m. VIP Lunch Session: Quantum Gravity — Why Should We Care?

  • Kip Thorne – 2017 Nobel Laureate, Executive Producer of blockbuster film “Interstellar”

2:30 p.m. Session 3: What do Experiments Say?

  • Markus Aspelmeyer – Experimental Physicist, Quantum Optics and Optomechanics Leader, University of Vienna
  • Sir Roger Penrose – 2020 Nobel Laureate (via zoom)

Session 4: Time Travel

  • Kip Thorne – 2017 Nobel Laureate, Executive Producer of blockbuster film “Interstellar”

Event Partners

  • Quantum Gravity Society
  • Westin Bayshore
  • Fiore Group
  • Concord Pacific
  • VanEdge Capital
  • Frind Estate Winery

Marketing Partners

  • BC Business Council
  • Greater Vancouver Board of Trade

Please note that Sir Roger Penrose will be present via Zoom but all the others will be there in the room with you.

Given that Kip Thorne won his 2017 Nobel Prize in Physics (with Rainer Weiss and Barry Barish) for work on gravitational waves, it’s surprising there’s no mention of this in the publicity for a conference on quantum gravity. Finding gravitational waves in 2016 was a very big deal (see Josh Fischman’s and Steve Mirsky’s February 11, 2016 interview with Kip Thorne for Scientific American).

Some thoughts on this conference and the Canadian quantum scene

This conference has a fascinating collection of players. Even I recognized some of the names, e.g., Penrose, Rees, Thorne.

The academics were to be expected and every presenter is an academic, often with their own Wikipedia page. Weirdly, there’s no one from the Perimeter Institute Institute for Theoretical Physics or TRIUMF (a national physics laboratory and centre for particle acceleration) or from anywhere else in Canada, which may be due to their academic specialty rather than an attempt to freeze out Canadian physicists. In any event, the conference academics are largely from the US (a lot of them from CalTech and Stanford) and from the UK.

The business people are a bit of a surprise. The BC Business Council and the Greater Vancouver Board of Trade? Frank Giustra who first made his money with gold mines, then with Lionsgate Entertainment, and who continues to make a great deal of money with his equity investment company, Fiore Group? Terry Hui, Chief Executive Office of Concord Pacific, a real estate development company? VanEdge Capital, an early stage venture capital fund? A winery? Missing from this list is D-Wave Systems, Canada’s quantum calling card and local company. While their area of expertise is quantum computing, I’d still expect to see them present as sponsors. *ETA December 6, 2022: I just looked at the conference page again and D-Wave is now listed as a sponsor.*

The academics? These people are not cheap dates (flights, speaker’s fees, a room at the Bayshore, meals). This is a very expensive conference and $129 for lunch and a daypass is likely a heavily subsidized ticket.

Another surprise? No government money/sponsorship. I don’t recall seeing another academic conference held in Canada without any government participation.

Canadian quantum scene

A National Quantum Strategy was first announced in the 2021 Canadian federal budget and reannounced in the 2022 federal budget (see my April 19, 2022 posting for a few more budget details).. Or, you may find this National Quantum Strategy Consultations: What We Heard Report more informative. There’s also a webpage for general information about the National Quantum Strategy.

As evidence of action, the Natural Science and Engineering Research Council of Canada (NSERC) announced new grant programmes made possible by the National Quantum Strategy in a March 15, 2022 news release,

Quantum science and innovation are giving rise to promising advances in communications, computing, materials, sensing, health care, navigation and other key areas. The Government of Canada is committed to helping shape the future of quantum technology by supporting Canada’s quantum sector and establishing leadership in this emerging and transformative domain.

Today [March 15, 2022], the Honourable François-Philippe Champagne, Minister of Innovation, Science and Industry, is announcing an investment of $137.9 million through the Natural Sciences and Engineering Research Council of Canada’s (NSERC) Collaborative Research and Training Experience (CREATE) grants and Alliance grants. These grants are an important next step in advancing the National Quantum Strategy and will reinforce Canada’s research strengths in quantum science while also helping to develop a talent pipeline to support the growth of a strong quantum community.

Quick facts

Budget 2021 committed $360 million to build the foundation for a National Quantum Strategy, enabling the Government of Canada to build on previous investments in the sector to advance the emerging field of quantum technologies. The quantum sector is key to fuelling Canada’s economy, long-term resilience and growth, especially as technologies mature and more sectors harness quantum capabilities.

Development of quantum technologies offers job opportunities in research and science, software and hardware engineering and development, manufacturing, technical support, sales and marketing, business operations and other fields.

The Government of Canada also invested more than $1 billion in quantum research and science from 2009 to 2020—mainly through competitive granting agency programs, including Natural Sciences and Engineering Research Council of Canada programs and the Canada First Research Excellence Fund—to help establish Canada as a global leader in quantum science.

In addition, the government has invested in bringing new quantum technologies to market, including investments through Canada’s regional development agencies, the Strategic Innovation Fund and the National Research Council of Canada’s Industrial Research Assistance Program.

Bank of Canada, cryptocurrency, and quantum computing

My July 25, 2022 posting features a special project, Note: All emphases are mine,

… (from an April 14, 2022 HKA Marketing Communications news release on EurekAlert),

Multiverse Computing, a global leader in quantum computing solutions for the financial industry and beyond with offices in Toronto and Spain, today announced it has completed a proof-of-concept project with the Bank of Canada through which the parties used quantum computing to simulate the adoption of cryptocurrency as a method of payment by non-financial firms.

“We are proud to be a trusted partner of the first G7 central bank to explore modelling of complex networks and cryptocurrencies through the use of quantum computing,” said Sam Mugel, CTO [Chief Technical Officer] at Multiverse Computing. “The results of the simulation are very intriguing and insightful as stakeholders consider further research in the domain. Thanks to the algorithm we developed together with our partners at the Bank of Canada, we have been able to model a complex system reliably and accurately given the current state of quantum computing capabilities.”

Multiverse Computing conducted its innovative work related to applying quantum computing for modelling complex economic interactions in a research project with the Bank of Canada. The project explored quantum computing technology as a way to simulate complex economic behaviour that is otherwise very difficult to simulate using traditional computational techniques.

By implementing this solution using D-Wave’s annealing quantum computer, the simulation was able to tackle financial networks as large as 8-10 players, with up to 2^90 possible network configurations. Note that classical computing approaches cannot solve large networks of practical relevance as a 15-player network requires as many resources as there are atoms in the universe.

Quantum Technologies and the Council of Canadian Academies (CCA)

In a May 26, 2022 blog posting the CCA announced its Expert Panel on Quantum Technologies (they will be issuing a Quantum Technologies report),

The emergence of quantum technologies will impact all sectors of the Canadian economy, presenting significant opportunities but also risks. At the request of the National Research Council of Canada (NRC) and Innovation, Science and Economic Development Canada (ISED), the Council of Canadian Academies (CCA) has formed an Expert Panel to examine the impacts, opportunities, and challenges quantum technologies present for Canadian industry, governments, and Canadians. Raymond Laflamme, O.C., FRSC, Canada Research Chair in Quantum Information and Professor in the Department of Physics and Astronomy at the University of Waterloo, will serve as Chair of the Expert Panel.

“Quantum technologies have the potential to transform computing, sensing, communications, healthcare, navigation and many other areas,” said Dr. Laflamme. “But a close examination of the risks and vulnerabilities of these technologies is critical, and I look forward to undertaking this crucial work with the panel.”

As Chair, Dr. Laflamme will lead a multidisciplinary group with expertise in quantum technologies, economics, innovation, ethics, and legal and regulatory frameworks. The Panel will answer the following question:

In light of current trends affecting the evolution of quantum technologies, what impacts, opportunities and challenges do these present for Canadian industry, governments and Canadians more broadly?

The Expert Panel on Quantum Technologies:

Raymond Laflamme, O.C., FRSC (Chair), Canada Research Chair in Quantum Information; the Mike and Ophelia Lazaridis John von Neumann Chair in Quantum Information; Professor, Department of Physics and Astronomy, University of Waterloo

Sally Daub, Founder and Managing Partner, Pool Global Partners

Shohini Ghose, Professor, Physics and Computer Science, Wilfrid Laurier University; NSERC Chair for Women in Science and Engineering

Paul Gulyas, Senior Innovation Executive, IBM Canada

Mark W. Johnson, Senior Vice-President, Quantum Technologies and Systems Products, D-Wave Systems

Elham Kashefi, Professor of Quantum Computing, School of Informatics, University of Edinburgh; Directeur de recherche au CNRS, LIP6 Sorbonne Université

Mauritz Kop, Fellow and Visiting Scholar, Stanford Law School, Stanford University

Dominic Martin, Professor, Département d’organisation et de ressources humaines, École des sciences de la gestion, Université du Québec à Montréal

Darius Ornston, Associate Professor, Munk School of Global Affairs and Public Policy, University of Toronto

Barry Sanders, FRSC, Director, Institute for Quantum Science and Technology, University of Calgary

Eric Santor, Advisor to the Governor, Bank of Canada

Christian Sarra-Bournet, Quantum Strategy Director and Executive Director, Institut quantique, Université de Sherbrooke

Stephanie Simmons, Associate Professor, Canada Research Chair in Quantum Nanoelectronics, and CIFAR Quantum Information Science Fellow, Department of Physics, Simon Fraser University

Jacqueline Walsh, Instructor; Director, initio Technology & Innovation Law Clinic, Dalhousie University

You’ll note that both the Bank of Canada and D-Wave Systems are represented on this expert panel.

The CCA Quantum Technologies report (in progress) page can be found here.

Does it mean anything?

Since I only skim the top layer of information (disparagingly described as ‘high level’ by the technology types I used to work with), all I can say is there’s a remarkable level of interest from various groups who are self-organizing. (The interest is international as well. I found the International Society for Quantum Gravity [ISQG], which had its first meeting in 2021.)

I don’t know what the purpose is other than it seems the Canadian focus seems to be on money. The board of trade and business council have no interest in primary research and the federal government’s national quantum strategy is part of Innovation, Science and Economic Development (ISED) Canada’s mandate. You’ll notice ‘science’ is sandwiched between ‘innovation’, which is often code for business, and economic development.

The Bank of Canada’s monetary interests are quite obvious.

The Perimeter Institute mentioned earlier was founded by Mike Lazaridis (from his Wikipedia entry) Note: Links have been removed,

… a Canadian businessman [emphasis mine], investor in quantum computing technologies, and founder of BlackBerry, which created and manufactured the BlackBerry wireless handheld device. With an estimated net worth of US$800 million (as of June 2011), Lazaridis was ranked by Forbes as the 17th wealthiest Canadian and 651st in the world.[4]

In 2000, Lazaridis founded and donated more than $170 million to the Perimeter Institute for Theoretical Physics.[11][12] He and his wife Ophelia founded and donated more than $100 million to the Institute for Quantum Computing at the University of Waterloo in 2002.[8]

That Institute for Quantum Computing? There’s an interesting connection. Raymond Laflamme, the chair for the CCA expert panel, was its director for a number of years and he’s closely affiliated with the Perimeter Institute. (I’m not suggesting anything nefarious or dodgy. It’s a small community in Canada and relationships tend to be tightly interlaced.) I’m surprised he’s not part of the quantum mechanics and gravity conference but that could have something to do with scheduling.

One last interesting bit about Laflamme, from his Wikipedia entry, Note: Links have been removed)

As Stephen Hawking’s PhD student, he first became famous for convincing Hawking that time does not reverse in a contracting universe, along with Don Page. Hawking told the story of how this happened in his famous book A Brief History of Time in the chapter The Arrow of Time.[3] Later on Laflamme made a name for himself in quantum computing and quantum information theory, which is what he is famous for today.

Getting back to the Quantum Mechanics & Gravity: Marrying Theory & Experiment, the public day looks pretty interesting and when is the next time you’ll have a chance to hobnob with all those Nobel Laureates?