Tag Archives: Canada

Canadian and Italian researchers go beyond graphene with 2D polymers

According to a May 20,2020 McGill University news release (also on EurkekAltert), a team of Canadian and Italian researchers has broken new ground in materials science (Note: There’s a press release I found a bit more accessible and therefore informative coming up after this one),

A study by a team of researchers from Canada and Italy recently published in Nature Materials could usher in a revolutionary development in materials science, leading to big changes in the way companies create modern electronics.

The goal was to develop two-dimensional materials, which are a single atomic layer thick, with added functionality to extend the revolutionary developments in materials science that started with the discovery of graphene in 2004.

In total, 19 authors worked on this paper from INRS [Institut National de la Recherche Scientifique], McGill {University], Lakehead [University], and Consiglio Nazionale delle Ricerche, the national research council in Italy.

This work opens exciting new directions, both theoretical and experimental. The integration of this system into a device (e.g. transistors) may lead to outstanding performances. In addition, these results will foster more studies on a wide range of two-dimensional conjugated polymers with different lattice symmetries, thereby gaining further insights into the structure vs. properties of these systems.

The Italian/Canadian team demonstrated the synthesis of large-scale two-dimensional conjugated polymers, also thoroughly characterizing their electronic properties. They achieved success by combining the complementary expertise of organic chemists and surface scientists.

“This work represents an exciting development in the realization of functional two-dimensional materials beyond graphene,” said Mark Gallagher, a Physics professor at Lakehead University.

“I found it particularly rewarding to participate in this collaboration, which allowed us to combine our expertise in organic chemistry, condensed matter physics, and materials science to achieve our goals.”

Dmytro Perepichka, a professor and chair of Chemistry at McGill University, said they have been working on this research for a long time.

“Structurally reconfigurable two-dimensional conjugated polymers can give a new breadth to applications of two-dimensional materials in electronics,” Perepichka said.

“We started dreaming of them more than 15 years ago. It’s only through this four-way collaboration, across the country and between the continents, that this dream has become the reality.”

Federico Rosei, a professor at the Énergie Matériaux Télécommunications Research Centre of the Institut National de la Recherche Scientifique (INRS) in Varennes who holds the Canada Research Chair in Nanostructured Materials since 2016, said they are excited about the results of this collaboration.

“These results provide new insights into mechanisms of surface reactions at a fundamental level and simultaneously yield a novel material with outstanding properties, whose existence had only been predicted theoretically until now,” he said.

About this study

Synthesis of mesoscale ordered two-dimensional π-conjugated polymers with semiconducting properties” by G. Galeotti et al. was published in Nature Materials.

This research was partially supported by a project Grande Rilevanza Italy-Quebec of the Italian Ministero degli Affari Esteri e della Cooperazione Internazionale, Direzione Generale per la Promozione del Sistema Paese, the Natural Sciences and Engineering Research Council of Canada, the Fonds Québécois de la recherche sur la nature et les technologies and a US Army Research Office. Federico Rosei is also grateful to the Canada Research Chairs program for funding and partial salary support.

About McGill University

Founded in Montreal, Quebec, in 1821, McGill is a leading Canadian post-secondary institution. It has two campuses, 11 faculties, 13 professional schools, 300 programs of study and over 40,000 students, including more than 10,200 graduate students. McGill attracts students from over 150 countries around the world, its 12,800 international students making up 31% per cent of the student body. Over half of McGill students claim a first language other than English, including approximately 19% of our students who say French is their mother tongue.

About the INRS
The Institut National de la Recherche Scientifique (INRS) is the only institution in Québec dedicated exclusively to graduate level university research and training. The impacts of its faculty and students are felt around the world. INRS proudly contributes to societal progress in partnership with industry and community stakeholders, both through its discoveries and by training new researchers and technicians to deliver scientific, social, and technological breakthroughs in the future.

Lakehead University
Lakehead University is a fully comprehensive university with approximately 9,700 full-time equivalent students and over 2,000 faculty and staff at two campuses in Orillia and Thunder Bay, Ontario. Lakehead has 10 faculties, including Business Administration, Education, Engineering, Graduate Studies, Health & Behavioural Sciences, Law, Natural Resources Management, the Northern Ontario School of Medicine, Science & Environmental Studies, and Social Sciences & Humanities. In 2019, Maclean’s 2020 University Rankings, once again, included Lakehead University among Canada’s Top 10 primarily undergraduate universities, while Research Infosource named Lakehead ‘Research University of the Year’ in its category for the fifth consecutive year. Visit www.lakeheadu.ca

I’m a little surprised there wasn’t a quote from one of the Italian researchers in the McGill news release but then there isn’t a quote in this slightly more accessible May 18, 2020 Consiglio Nazionale delle Ricerche press release either,

Graphene’s isolation took the world by surprise and was meant to revolutionize modern electronics. However, it was soon realized that its intrinsic properties limit the utilization in our daily electronic devices. When a concept of Mathematics, namely Topology, met the field of on-surface chemistry, new materials with exotic features were theoretically discovered. Topological materials exhibit technological relevant properties such as quantum hall conductivity that are protected by a concept similar to the comparison of a coffee mug and a donut.  These structures can be synthesized by the versatile molecular engineering toolbox that surface reactions provide. Nevertheless, the realization of such a material yields access to properties that suit the figure of merits for modern electronic application and could eventually for example lead to solve the ever-increasing heat conflict in chip design. However, problems such as low crystallinity and defect rich structures prevented the experimental observation and kept it for more than a decade a playground only investigated theoretically.

An international team of scientists from Institut National de la Recherche Scientifique (Centre Energie, Matériaux et Télécommunications), McGill University and Lakehead University, both located in Canada, and the SAMOS laboratory of the Istituto di Struttura della Materia (Cnr), led by Giorgio Contini, demonstrates, in a recent publication on Nature Materials, that the synthesis of two-dimensional π-conjugated polymers with topological Dirac cone and flats bands became a reality allowing a sneak peek into the world of organic topological materials.

Complementary work of organic chemists and surface scientists lead to two-dimensional polymers on a mesoscopic scale and granted access to their electronic properties. The band structure of the topological polymer reveals both flat bands and a Dirac cone confirming the prediction of theory. The observed coexistence of both structures is of particular interest, since whereas Dirac cones yield massless charge carriers (a band velocity of the same order of magnitude of graphene has been obtained), necessary for technological applications, flat bands quench the kinetic energy of charge carriers and could give rise to intriguing phenomena such as the anomalous Hall effect, surface superconductivity or superfluid transport.

This work paths multiple new roads – both theoretical and experimental nature. The integration of this topological polymer into a device such as transistors possibly reveals immense performance. On the other hand, it will foster many researchers to explore a wide range of two-dimensional polymers with different lattice symmetries, obtaining insight into the relationship between geometrical and electrical topology, which would in return be beneficial to fine tune a-priori theoretical studies. These materials – beyond graphene – could be then used for both their intrinsic properties as well as their interplay in new heterostructure designs.

The authors are currently exploring the practical use of the realized material trying to integrate it into transistors, pushing toward a complete designing of artificial topological lattices.

This work was partially supported by a project Grande Rilevanza Italy-Quebec of the Italian Ministero degli Affari Esteri e della Cooperazione Internazionale (MAECI), Direzione Generale per la Promozione del Sistema Paese.

The Italians also included an image to accompany their press release,

Image of the synthesized material and its band structure Courtesy: Consiglio Nazionale delle Ricerche

My heart sank when I saw the number of authors for this paper (WordPress no longer [since their Christmas 2018 update] makes it easy to add the author’s names quickly to the ‘tags field’). Regardless and in keeping with my practice, here’s a link to and a citation for the paper,

Synthesis of mesoscale ordered two-dimensional π-conjugated polymers with semiconducting properties by G. Galeotti, F. De Marchi, E. Hamzehpoor, O. MacLean, M. Rajeswara Rao, Y. Chen, L. V. Besteiro, D. Dettmann, L. Ferrari, F. Frezza, P. M. Sheverdyaeva, R. Liu, A. K. Kundu, P. Moras, M. Ebrahimi, M. C. Gallagher, F. Rosei, D. F. Perepichka & G. Contini. Nature Materials (2020) DOI: https://doi.org/10.1038/s41563-020-0682-z Published 18 May 2020

This paper is behind a paywall.

Increased food security with hexanal for younger looking, fresher tasting fruits and vegetables

Also known as an anti-aging agent for your fruit and vegetables, hexanal is an environmentally friendly chemical, which is found naturally. Research has led to a synthesized nanotechnology-enabled product now being commercialized. I’ve been following the story off and on since 2012 (see my ‘India, Sri Lanka, and Canada team up for nanotechnology-enabled food packaging‘ posting). I last wrote about the project in a December 29, 2015 posting.

For some reason, hexanal hit the news hard in 2019 having been preceded by some interest in 2018. What follows is an update and a timeline of sorts.

January 2019: More funding

A January 24,2019 essay (also published on the University of Guelph website on January 29, 2019) by Jayasankar Subramanian and Elizabeth Finnis, both are lead researchers on the the project and professors at the University of Guelph (Canada), provides an overview and an update of the hexanal project (Note: Links have been removed) ,

Fruits like mangoes, bananas, papayas and limes are shipped long distances before they get to your table. Many fruits are delicate, and there may be a long period of time that elapses between when the fruit is picked and its arrival in grocery stores and other markets. They’re often picked before they’re truly ripe in order to increase their shelf life.

Even so, globally, up to 40 per cent of all picked fruit can be lost and this represents billions of dollars. But what if we had the technology to delay fruit’s natural degradation process? This is where hexanal can make a difference.

Fruits like mangoes, bananas, papayas and limes are shipped long distances before they get to your table. Many fruits are delicate, and there may be a long period of time that elapses between when the fruit is picked and its arrival in grocery stores and other markets. They’re often picked before they’re truly ripe in order to increase their shelf life.

Even so, globally, up to 40 per cent of all picked fruit can be lost and this represents billions of dollars. But what if we had the technology to delay fruit’s natural degradation process? This is where hexanal can make a difference.

Hexanal is naturally produced by plants to ward off pests; our research at the University of Guelph has found that when it’s applied externally, hexanal can also slow down the aging process.

Like everything else, fruit ages with time. The shrivelling and rot is triggered by the enzyme phospholipase D (PLD), which causes the eventual collapse of the fruit’s membrane. Essentially, fruit membranes are snug, and function like a brick wall of phospholipid bilayers. Phospholipase D breaks the alignment of the bricks, causing the membrane to crumble. Hexanal acts by reducing and slowing the formation of PLD, which in turn slows the collapse of the fruit’s membrane.

In partnership with agricultural and social science researchers in Canada and five other countries, we have tested nine hexanal technologies. These include a spray formulation that gets applied to fruit when they’re still on trees, post-harvest dips, fruit wraps, stickers and sachets embedded with hexanal.

Our findings have implications for consumers, retailers and, more importantly, farmers. For example, when applied as a pre-harvest spray, hexanal can keep fruit on trees longer and keep it fresher after harvest — up to three weeks longer for mangoes.

Hexanal is naturally produced by all plants and is already found as an additive in some food products. Hexanal is also approved by Health Canada as a flavour formula. Our tests of synthesized hexanal sprays, dips and other technologies showed that there were no negative effects on plants, insects or other animals. In addition, hexanal evaporates within 24 hours, which means there’s no residue left on fruit.

Farmers who participated in hexanal testing in Canada and elsewhere were happy with the product both in terms of its effectiveness and bio-safety.

Currently, hexanal for agricultural use is in the two-year regulatory clearance process in Canada and the U.S. Once the process is complete, hexanal formulations are expected to be available for farmer use and can be accessed through companies with a license for production.

Hexanal slows down the ripening and aging process in fresh produce. Author provided

That’s a stunning difference, eh?

Funding

At about the same time as the Conversation essay by Subramanian and Finnis, the University of Guelph published (on the Council of Ontario Universities website) a January 27, 2019 news release announcing new funds for the project,

A University of Guelph research project that has already improved the livelihoods of small-scale Asian farmers will further expand worldwide, thanks to more than $4.2 million in federal support announced Friday afternoon.

The project involves innovative packaging developed in part by Guelph researchers using nanotechnology to improve the shelf life of mangoes, a major fruit crop in much of the world.

Already, the technology has helped to significantly reduce post-harvest losses in Sri Lanka and India. Poor storage meant that farmers routinely lost up to 40 per cent of their crops, worth upwards of $800 million a year. The new technology has also boosted per-acre revenue.

New funding support from the International Development Research Centre (IDRC) and Foreign Affairs, Trade and Development Canada will allow researchers to broaden this successful initiative to Kenya, Tanzania, and Trinidad and Tobago.

Researchers will also look at other fruit — bananas, grapes, papaya, nectarines and berries — and investigate ways to commercialize the technologies.

… it will also be a main pillar of the Guelph-East Africa Initiative, which U of G established to bring together stakeholders to support research and teaching in food, health, water, education, environment and community.

“This confirms our commitment to improve agriculture in East Africa and around the world.” [said John Livernois, interim vice-president {research} ]

The project involves the use of hexanal, a natural plant product that delays fruit ripening and aging. Guelph plant agriculture professor Gopi Paliyath holds an American patent on the discovery of hexanal as a post-harvest agent. It’s also an FDA-approved food additive.

The project also involves Guelph plant agriculture professors Paliyath and Al Sullivan; Loong-tak Lim from Food Science; and Elizabeth Finnis, Sociology and Anthropology. Foreign research partners are based at Tamil Nadu Agricultural University, India; Industrial Technical Institute, Sri Lanka; University of Nairobi, Kenya; Sokoine University of Agriculture, Tanzania; and the University of [the] West Indies, Trinidad and Tobago.

Prior to more funding: a memorandum of understanding

I’m having to guess as the document about the memorandum of understanding (MOU) to commercialize hexanal is not dated but it seems to have been produced in March 2018. (Canada’s International Development Research Centre ([IDRC] has a webpage about the memorandum but no memorandum that I could find.) I stumbled across this account of the event where the MOU was signed,

Ms. Jennifer Daubeny, Consulate General of Canada, delivered the special address narrating the significance of Canadian fundingin developing nanotechnologies to reduce post-harvest losses that enables food security in Asian Countries. Dr. K. Ramasamy, Vice Chancellor, Tamil Nadu Agricultural University [TNAU], Coimbatore presided over the function and highlighted the role of TNAU in knitting nanotechnology research framework and serving as a torch bearer in the country. He emphasized that the GAC-IDRC Project helped more than 60 students and researchers, developed two technologies, filed patents for two inventions, extensive infrastructure development besides helping more than 12,000 fruit growers in the State of Tamil Nadu. Dr. Jayasankar Subramanian, Professor, University of Guelph, Canada, explained the evolution of the project till reached the stage of technology delivery to benefit farmers. Dr. K.S. Subramanian, NABARD Chair Professor, TNAU, Coimbatore, lead Principal Investigator of the Project for India presented nanotechnologies developed to assist in the entire value chain from the farm to fork. Mr. Arun Nagarajan, President, Tamil Nadu Fruit Growers’ Association, explained that the fruit growers are eager to use the technology to improve their farm income. Mr. Terence Park, Managing Director, Smart Harvest Agri, Canada, [emphasis mine] bestowed interest to take forward the technologies to the farm gate and signed MOU with TNAU for the Commercialization of the Hexanal Formulation. Dr. G.J. Janavi,Professor & Head, Department of Nano Science & Technology, TNAU, Coimbatore welcomed the gathering and Dr. C. Sekar, Dean, Imayam Agricultural College,Turaiyur, and Co-PI of the Project proposed a formal vote of thanks.

The Canadian Consul General Ms. Jennifer Daubeny visited all the exhibits and interacted with students, scholars and researchers besides the NGO partner Myrada. She was very impressed with the technologies developed by TNAU in collaboration with University of Guelph, Canada, and looking forward to support research programs in the near future. More than 200 Scientists and Diplomats from Canada, students, scholars, university officials participated in the event.

Products launch by ITI, Colombo

Two of the project’s technology outputs -hexanal incorporated ITI Bio-wax and the Tree Fresh Formulation spray [emphasis mine] were transferred to Hayleys Agriculture Pvt. Ltd., a reputed Agro Service provider in Sri Lanka. The products were launched on 22ndMarch 2018 at the Taj Samudra Hotel, Colombo. The chief guest at the event was the Hon. Susil Premajayantha, Minister of Science Technology and Research (Min. ST&R). The guest of honour was H.E. David McKinnon, High Commissioner for Canada in Sri Lanka. Others present included the Secretary to the Min. ST&R, The Chairman and Director General, ITI, Mr Rizvi Zaheed, Hayleys Agriculture and his team, the Chairman, National Science Foundation, Sri Lanka, representative of the Chairman Sri Lanka Export Development Board, representatives from the Dialog mobile service provider, the Registrar of Pesticides, representing the Dir. Gen., of Agriculture, President of the Lanka Fruit and Vegetable Producers, Processors and Exporters Association, leading large scale mango, papaya and pineapple growers, several export and fruit processing company representatives, senior officials from the ITI, the multi-disciplinary ITI research team and our partner from CEPA. The press was also well represented and a total of 100 persons were present on this occasion. The Managing Director Hayles, the two PIs’ of the project, the High Commissioner for Canada, The Minister and for ST&R and the Secretary to the Ministry addressed the gathering and the new video clip on the project was viewed. The new products were jointly uncovered for display by the Hon. Minister and H.E., the High Commissioner. Samples of the products were distributed to the President of the Lanka Fruit and Vegetable Producers Processors and Exporters Association and to two leading mango growers. The Project team also took this opportunity to run a presentation on the various stages of the project and related activities, display posters on their research findings and to print and distribute the pamphlets on the same as well as on hexanal, the latter as prepared by our partners from the University of Guelph. The launch ended with a time of fellowship providing a useful opportunity for networking.

A YouTube video about the product launch of hexanal-based Bio-wax and the Tree Fresh Formulation spray (I don’t know if those were the permanent names or if they are specific to Sri Lanka and other countries will adopt other names) helped to establish the date for the MOU. You can find the video here.

Judging from the media stories, the team in India has provided most of the leadership for commercializing hexanal.

Commercialization 2019 and beyond

To sum up, after a memorandum of understanding is signed and some prototype products have been unveiled in India in 2018 then, in early 2019, there’s more funding announced by IDRC to expand the number of countries involved and to continue research into efforts to save other types of produce.

Moving things along is an August 15, 2019 news item on Agropages.com,

Two nano formulations would be commercialized by the Directorate of Agri business development of Tamil Nadu Agricultural University (TNAU) soon.  

Fruity fresh is a liquid nano formulation containing hexanal that keeps fruits and vegetables fresh for more days. The pre-harvest spray of Fruity Fresh extends the shelf life of mango for two weeks on trees and another two weeks under storage conditions by employing post-harvest dip methodology, Dr. A. Lakshmanan, Professor and Head, Department of Nano Science and Technology told a meet on “Linking Nano Stakeholders” held at the University.  

Hexanal has also been successfully encapsulated in polymer matrix either as an electro spun fibre matrix (Nano sticker) or nano-pellets that extends shelf life of fruits by 1-2 weeks during storage and transportation, he said.  

This sticker and pellets technology is highly user friendly and can be placed inside the cartons containing fruits during transport for enhancing the freshness.

According to a November 5, 2019 article by Pearly Neo for foodnavigator-asia.com, there is pricing for four products. Nano Sticker and Nano Pellet each will cost $US 0.028 and the spray, Fruity Fresh, will cost $US 4.23 to $US 5.65 for a one liter bottle diluted in 50 liters of water (for use on approximately five trees) and the Fruity Fresh dipping solution at $US 0.0071per kg.

As far as I’m aware none of these products are available in Canada but there is a website for Smart Harvest Agri, Canada although the name used is a little different. First, there’s the Federal Corporation Information listing for Smart Harvest Agritech Limited. You’ll notice there are two directors,

Amanjit Singh Bains
7685 150B Street
Surrey BC V3S 5P1
Canada

Terence Park
Yongsan CJ Nine Park
Seoul
Korea, Republic of

The company’s Smart Harvest website doesn’t list any products but it does discuss something they call “FRESHXtend technology” for fruits and vegetables.

Final comment

I sometimes hear complaints about government funding and what seems to be a lack of follow through with exciting research work being done in Canada. I hope that in the months to come that this story of an international collaboration, which started with three countries and has now expanded to at least six countries and has led to increased food security with an environmentally friendly material and commercialization of research, gets some attention.

From the few sources I’ve been able to find, it seems India and Sri Lanka are leading the commercialization charge while Canada has contributed to an Asian-led project which has now expanded to include Kenya, Tanzania, and Trinidad and Tobago. Bravo t them all!

Slippery toilet coating could save water

On a practical level, it’s becoming clear that we need to become more thoughtful about our use of water. We here in Canada tend to take our water for granted, as if we have an inexhaustible supply. According to this August 21, 2008 CBC (Canadian Broadcasting Corporation) online news item, that’s not the case,

Canada’s stores of fresh water are not as plentiful as once thought, and threaten to pinch the economy and pit provinces against each other, a federal document says.

An internal report drafted last December [2007] by Environment Canada warns that climate change and a growing population will further drain resources.

“We can no longer take our extensive water supplies for granted,” says the report, titled A Federal Perspective on Water Quantity Issues.

The Canadian Press obtained the 21-page draft report under the Access to Information Act.

It suggests the federal government take a more hands-on role in managing the country’s water, which is now largely done by the provinces. Ottawa still manages most of the fresh water in the North through water boards.

The Conservatives promised a national water strategy in last fall’s throne speech but have been criticized since for announcing only piecemeal projects.

The Tories, like the previous Liberal government, are also behind in publishing annual reports required by law that show how water supplies are used and maintained.

The last assessment posted on Environment Canada’s website is from 2005-06.

The internal draft report says the government currently does not know enough about the country’s water to properly manage it.

‘This is not a crisis yet. Why would we expect any government, regardless of political leaning or level, to do anything about it?’

“Canada lacks sound information at a national scale on the major uses and user[s] of water,” it says.

“National forecasting of water availability has never been done because traditionally our use of the resource was thought to be unlimited.”

Canada has a fifth of the world’s supply of fresh water, but only seven per cent of it is renewable. The rest comes from ice-age glaciers and underground aquifers.

One per cent of Canada’s total water supply is renewed each year by precipitation, the report says.

Moreover, government data on the country’s groundwater reserves is deemed “sparse and often inadequate.”

That’s in contrast to the United States, which has spent more than a decade mapping its underground water reserves. Canada shares aquifers with the U.S., and the report says: “Our lack of data places Canada at strategic disadvantage for bilateral negotiations with the U.S.”

The most recent update I can find is Ivan Semeniuk’s June 11, 2017 article for the Globe and Mail tilted: Charting Canada’s troubled waters: Where the danger lies for watersheds across the country,

A comprehensive review [World Wildlife Federation: a national assessment of of Canada’s freshwater Watershed Reports; 2017] freshwater ecosystems reveals rising threats from pollution, overuse, invasive species and climate change among other problems. Yet, the biggest threat of all may be a lack of information that hinders effective regulation, Ivan Semeniuk reports. …

Some of that information may be out of date.

Getting back on topic, here’s one possible solution to better managing our use of water.

Toilet coating

A November 18, 2019 news item on phys.org announces research that could save water,

Every day, more than 141 billion liters of water are used solely to flush toilets. With millions of global citizens experiencing water scarcity, what if that amount could be reduced by 50%?

The possibility may exist through research conducted at Penn State, released today (Nov. 18) in Nature Sustainability.

“Our team has developed a robust bio-inspired, liquid, sludge- and bacteria-repellent coating that can essentially make a toilet self-cleaning,” said Tak-Sing Wong, Wormley Early Career Professor of Engineering and associate professor of mechanical engineering and biomedical engineering.

Penn State researchers have developed a method that dramatically reduces the amount of water needed to flush a conventional toilet, which usually requires 6 liters. Image: Wong Laboratory for Nature Inspired Engineering

A November 18, 2019 Pennsylvania State University news release (also on EurekAlert,) which originated the news item, describes the research in more detail,

In the Wong Laboratory for Nature Inspired Engineering, housed within the Department of Mechanical Engineering and the Materials Research Institute, researchers have developed a method that dramatically reduces the amount of water needed to flush a conventional toilet, which usually requires 6 liters.

Co-developed by Jing Wang, a doctoral graduate from Wong’s lab, the liquid-entrenched smooth surface (LESS) coating is a two-step spray that, among other applications, can be applied to a ceramic toilet bowl. The first spray, created from molecularly grafted polymers, is the initial step in building an extremely smooth and liquid-repellent foundation.

“When it dries, the first spray grows molecules that look like little hairs, with a diameter of about 1,000,000 times thinner than a human’s,” Wang said.

While this first application creates an extremely smooth surface as is, the second spray infuses a thin layer of lubricant around those nanoscopic “hairs” to create a super-slippery surface.

“When we put that coating on a toilet in the lab and dump synthetic fecal matter on it, it (the synthetic fecal matter) just completely slides down and nothing sticks to it (the toilet),” Wang said.

With this novel slippery surface, the toilets can effectively clean residue from inside the bowl and dispose of the waste with only a fraction of the water previously needed. The researchers also predict the coating could last for about 500 flushes in a conventional toilet before a reapplication of the lubricant layer is needed.

While other liquid-infused slippery surfaces can take hours to cure, the LESS two-step coating takes less than five minutes. The researcher’s experiments also found the surface effectively repelled bacteria, particularly ones that spread infectious diseases and unpleasant odors.

If it were widely adopted in the United States, it could direct critical resources toward other important activities, to drought-stricken areas or to regions experiencing chronic water scarcity, said the researchers.

Driven by these humanitarian solutions, the researchers also hope their work can make an impact in the developing world. The technology could be used within waterless toilets, which are used extensively around the world.

“Poop sticking to the toilet is not only unpleasant to users, but it also presents serious health concerns,” Wong said.

However, if a waterless toilet or urinal used the LESS coating, the team predicts these types of fixtures would be more appealing and safer for widespread use.

To address these issues in both the United States and around the world, Wong and his collaborators, Wang, Birgitt Boschitsch, and Nan Sun, all mechanical engineering alumni, began a start-up venture.

With support from the Ben Franklin Technology Partners’ TechCelerator, the National Science Foundation, the Department of Energy, the Office of Naval Research, the Rice Business Plan Competition and Y-Combinator, their company, spotLESS Materials, is already bringing the LESS coating to market.

“Our goal is to bring impactful technology to the market so everyone can benefit,” Wong said. “To maximize the impact of our coating technology, we need to get it out of the lab.”

Looking forward, the team hopes spotLESS Materials will play a role in sustaining the world’s water resources and continue expanding the reach of their technology.

“As a researcher in an academic setting, my goal is to invent things that everyone can benefit from,” Wong said. “As a Penn Stater, I see this culture being amplified through entrepreneurship, and I’m excited to contribute.”

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

Viscoelastic solid-repellent coatings for extreme water saving and global sanitation by Jing Wang, Lin Wang, Nan Sun, Ross Tierney, Hui Li, Margo Corsetti, Leon Williams, Pak Kin Wong & Tak-Sing Wong. Nature Sustainability (2019) DOI: https://doi.org/10.1038/s41893-019-0421-0 Published 18 November 2019

This paper is behind a paywall. However, the researchers have made a brief video available,

There you have it. One random thought, that toilet image reminded me of the controversy over Marcel Duchamp, the Fountain, and who actually submitted a urinal for consideration as a piece of art (Jan. 23, 2019 posting). Hint: Some believe it was Baroness Elsa von Freytag-Loringhoven.

Therapeutic nanoparticles for COVID-19 (disease caused by severe acute respiratory syndrome coronavirus 2 [SARS-CoV-2])—don’t hold your breath!

Last week (specifically, Tuesday, March 3, 2020), someone moved away from me during a class. I’d sneezed.

The irony of the situation is that of the two of us, with my lung issues I’d be the one most at risk of getting very ill and/or dying from COVID-19. ([1] Yes, I confirmed that was the reason she’d moved. [2] The therapeutic nanoparticles news item is coming later) Here are the risk factors to take into account (from the US Centers for Disease Control’s People at Risk for Serious Illness from COVID-19 webpage,

  • Older adults [Note: In one report the age range was stated as ‘people over 70’]
  • People who have serious chronic medical conditions like:
    • Heart disease
    • Diabetes
    • Lung disease

I’m not suggesting that all precautions be abandoned but it would seem that panic might not be called for. Jeremy Samuel Faust, an emergency medicine physician at Brigham and Women’s Hospital in Boston, faculty in its division of health policy and public health, and an instructor at Harvard Medical School, has written a calming March 4, 2020 article (COVID-19 Isn’t As Deadly As We Think; Don’t hoard masks and food. Figure out how to help seniors and the immunosuppressed stay healthy.) for Slate.com (Note: Links have been removed],

There are many compelling reasons to conclude that SARS-CoV-2, the virus that causes COVID-19, is not nearly as deadly as is currently feared. But COVID-19 panic has set in nonetheless. You can’t find hand sanitizer in stores, and N95 face masks are being sold online for exorbitant prices, never mind that neither is the best way to protect against the virus (yes, just wash your hands). The public is behaving as if this epidemic is the next Spanish flu, which is frankly understandable given that initial reports have staked COVID-19 mortality at about 2–3 percent, quite similar to the 1918 pandemic that killed tens of millions of people.

Allow me to be the bearer of good news. These frightening numbers are unlikely to hold. The true case fatality rate, known as CFR, of this virus is likely to be far lower than current reports suggest. Even some lower estimates, such as the 1 percent death rate recently mentioned by the directors of the National Institutes of Health and the Centers for Disease Control and Prevention, likely substantially overstate the case. [emphases mine]

But the most straightforward and compelling evidence that the true case fatality rate of SARS-CoV-2 is well under 1 percent comes not from statistical trends and methodological massage, but from data from the Diamond Princess cruise outbreak and subsequent quarantine off the coast of Japan.

A quarantined boat is an ideal—if unfortunate—natural laboratory to study a virus. Many variables normally impossible to control are controlled. We know that all but one patient boarded the boat without the virus. We know that the other passengers were healthy enough to travel. We know their whereabouts and exposures. While the numbers coming out of China are scary, we don’t know how many of those patients were already ill for other reasons. How many were already hospitalized for another life-threatening illness and then caught the virus? How many were completely healthy, caught the virus, and developed a critical illness? In the real world, we just don’t know.

Here’s the problem with looking at mortality numbers in a general setting: In China, 9 million people die per year, which comes out to 25,000 people every single day, or around 1.5 million people over the past two months alone. A significant fraction of these deaths results from diseases like emphysema/COPD, lower respiratory infections, and cancers of the lung and airway whose symptoms are clinically indistinguishable from the nonspecific symptoms seen in severe COVID-19 cases. And, perhaps unsurprisingly, the death rate from COVID-19 in China spiked precisely among the same age groups in which these chronic diseases first become common. During the peak of the outbreak in China in January and early February, around 25 patients per day were dying with SARS-CoV-2. Most were older patients in whom the chronic diseases listed above are prevalent. Most deaths occurred in Hubei province, an area in which lung cancer and emphysema/COPD are significantly higher than national averages in China, a country where half of all men smoke. How were doctors supposed to sort out which of those 25 out of 25,000 daily deaths were solely due to coronavirus, and which were more complicated? What we need to know is how many excess deaths this virus causes.

This all suggests that COVID-19 is a relatively benign disease for most young people, and a potentially devastating one for the old and chronically ill, albeit not nearly as risky as reported. Given the low mortality rate among younger patients with coronavirus—zero in children 10 or younger among hundreds of cases in China, and 0.2-0.4 percent in most healthy nongeriatric adults (and this is still before accounting for what is likely to be a high number of undetected asymptomatic cases)—we need to divert our focus away from worrying about preventing systemic spread among healthy people—which is likely either inevitable, or out of our control—and commit most if not all of our resources toward protecting those truly at risk of developing critical illness and even death: everyone over 70, and people who are already at higher risk from this kind of virus.

This still largely comes down to hygiene and isolation. But in particular, we need to focus on the right people and the right places. Nursing homes, not schools. Hospitals, not planes. We need to up the hygienic and isolation ante primarily around the subset of people who can’t simply contract SARS-CoV-2 and ride it out the way healthy people should be able to.

Curtis Kim of Vancouver, Canada, has created a website dedicated to tracking the statistics and information about COVID-19 in Canada and around the world. Here’s more about Kim and the website from a March 8, 2020 article by Megan Devlin for the Daily Hive,

Curtis Kim, who studied Computer Systems Technology at the British Columbia Institute of Technology [BCIT], launched the site this week after getting frustrated he was spending so much time on various websites looking for daily coronavirus updates.

The site breaks down the number of cases in Canada, the number of deaths (zero in Canada so far), and the number of people who have recovered. Further down, it provides the same stats for global COVID-19 cases.

There’s also a colour-coded map showing where cases are distributed, and a feed of latest news articles about the virus. Kim also included information about symptoms and how to contact Canadian public health services.

Kim is looking for work and given what I’ve seen of his COVID-19 website, he should have no difficulty. Although I think it might be an idea for him to explain how the ‘lethality’ rate on his website has been obtained since Faust who seems to have more directly relevant experience suggests in his article that the numbers are highly problematic,

My name is Curtis, recently graduated from BCIT. I thought it would be a serious worldwide issue considering the speed of the spread of this virus ever since this COVID-19 occurred. I frequently googled to check up the current status by going through many websites and felt I was wasting time repeatedly searching with same keywords and for sure I wasn’t the only one feeling this way. That’s why I started creating this application. It provides up-to-date information on the COVID-19 broken by province and country around the world, key contact information, and latest news. I like to help people, and want them to understand this situation easily using this application. Hopefully this situation improves soon.

If you have any further inquries about the information on this web application, Please reach me at curtisk808@gmail.com

At about 11:45 am (PT) on March 9, 2020, Kim’s COVID-19 website was updated to include one death in Canada. As you might expect, ti was a resident in a long term care home. Wanyee Li’s March 9, 2020 article for The Star presents the news,

A resident at a long-term care home experiencing a COVID-19 outbreak in North Vancouver has died after contracting the virus, B.C. health officials confirmed Monday [March 9, 2020].

It is the first reported death in Canada linked to the virus.

The outbreak at the Lynn Valley Care Centre has so far been linked to three community transmission cases of the virus.

Provincial Health Officer Dr. Bonnie Henry confirmed five new cases of COVID-19 in B.C. on Monday [March 9, 2020], putting the total in the province at 32.

The five new cases include one health-care worker, two people who are close contacts of an existing case, one person who recently returned from travel to Iran and another who was in Italy recently.

Officials are conducting an investigation into the three community transmission cases at the long-term care home to determine how a health care worker contracted the virus.

I looked up the population figures for the province of British Columbia (BC; Wikipedia entry for Demographics of British Columbia). As of the 2016 census, there were 4,648,055 people in the province. Assuming that population number holds, 67 cases in all of Canada (with 27 cases in BC) of COVID-19 don’t seem like big numbers.

We should definitely take precautions and be careful but there’s no need to panic.

Nanoparticles and a COVID-19 treatment?

Don’t hold you breath. This March 5, 2020 news item on Nanowerk is speculative,

There is no vaccine or specific treatment for COVID-19, the disease caused by the severe acute respiratory syndrome coronavirus 2, or SARS-CoV-2.

Since the outbreak began in late 2019, researchers have been racing to learn more about SARS-CoV-2, which is a strain from a family of viruses known as coronavirus for their crown-like shape.

Northeastern Ûniversity] chemical engineer Thomas Webster, who specializes in developing nano-scale medicine and technology to treat diseases, is part of a contingency of scientists that are contributing ideas and technology to the Centers for Disease Control and Prevention to fight the COVID-19 outbreak.

The idea of using nanoparticles, Webster says, is that the virus behind COVID-19 consists of a structure of a similar scale as his nanoparticles. At that scale, matter is ultra-small, about ten thousand times smaller than the width of a single strand of hair.

..

This scanning electron microscope image shows SARS-CoV-2 (round gold objects) emerging from the surface of cells cultured in the lab. SARS-CoV-2, also known as 2019-nCoV, is the virus that causes COVID-19. The virus shown was isolated from a patient in the U.S. (Image: NIAID-RML)

A March 4, 2020 Northeastern University news release by Roberto Molar Candanosa, which originated the news item, delves further into Webster’s thinking process,

Webster is proposing particles of similar sizes that could attach to SARS-CoV-2 viruses, disrupting their structure with a combination of infrared light treatment. That structural change would then halt the ability of the virus to survive and reproduce in the body.

“You have to think in this size range,” says Webster, Art Zafiropoulo Chair of chemical engineering at Northeastern. “In the nanoscale size range, if you want to detect viruses, if you want to deactivate them.”

Finding and neutralizing viruses with nanomedicine is at the core of what Webster and other researchers call theranostics, which focuses on combining therapy and diagnosis. Using that approach, his lab has specialized in nanoparticles to fight the microbes that cause influenza and tuberculosis. 

“It’s not just having one approach to detect whether you have a virus and another approach to use it as a therapy,” he says, “but having the same particle, the same approach, for both your detection and therapy.”

I wish Webster good luck. As for the rest us, let’s wash our hands and keep calm.

Colloidal quantum dots as ultra-sensitive hyper-spectral photodetectors

An October 16, 2019 news item on Nanowerk announces some of the latest work with colloidal quantum dots,

Researchers of the Optoelectronics and Measurement Techniques Unit (OPEM) at the University of Oulu [Finland] have invented a new method of producing ultra-sensitive hyper-spectral photodetectors. At the heart of the discovery are colloidal quantum dots, developed together with the researchers at the University of Toronto, Canada.

Quantum dots are tiny particles of 15-150 atoms of semiconducting material that have extraordinary optical and electrical properties due to quantum mechanics phenomena.

By controlling the size of the dots, the researchers are able to finetune how they react to different light colors (light wavelengths), especially those invisible for the human eye, namely the infrared spectrum.

The figure briefly introduces the concept of the study conducted by the researchers of the University of Oulu and the University of Toronto. The solution consisting of colloidal quantum dots is inkjet-printed, creating active photosensitive layer of the photodetector. Courtesy: Oulu University

An October 16, 2019 Oulu University press release, which originated the news item, provides more detail,

-Naturally, it is very rewarding that our hard work has been recognized by the international scientific community but at the same time, this report helps us to realize that there is a long journey ahead in incoming years. This publication is especially satisfying because it is the result of collaboration with world-class experts at the University of Toronto, Canada. This international collaboration where we combined the expertise of Toronto’s researchers in synthesizing quantum dots and our expertise in printed intelligence resulted in truly unique devices with astonishing performance, says docent Rafal Sliz, a leading researcher in this project.
 
Mastered in the OPEM unit, inkjet printing technology makes possible the creation of optoelectronic devices by designing functional inks that are printed on various surfaces, for instance, flexible substrates, clothing or human skin. Inkjet printing combined with colloidal quantum dots allowed the creation of photodetectors of impresive detectivity characteristics. The developed technology is a milestone in the creation of a new type of sub-micron-thick, flexible, and inexpensive IR sensing devices, the next generation of solar cells and other novel photonic systems.

-Oulus’ engineers and scientists’ strong expertise in optoelectronics resulted in many successful Oulu-based companies like Oura, Specim, Focalspec, Spectral Engines, and many more. New optoelectronic technologies, materials, and methods developed by our researchers will help Oulu and Finland to stay at the cutting edge of innovation, says professor Tapio Fabritius, a leader of the OPEM.

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

Stable Colloidal Quantum Dot Inks Enable Inkjet-Printed High-Sensitivity Infrared Photodetectors by Rafal Sliz, Marc Lejay, James Z. Fan, Min-Jae Choi, Sachin Kinge, Sjoerd Hoogland, Tapio Fabritius, F. Pelayo García de Arquer, Edward H. Sargent. ACS Nano 2019 DOI: https://doi.org/10.1021/acsnano.9b06125 Publication Date:September 23, 2019 Copyright © 2019 American Chemical Society

This paper is behind a paywall.

Gold glue?

If you’re hoping for gold flecks in your glue, this is not going to satisfy you, given that it’s all at the nanoscale. An August 7, 2019 news item on Nanowerk briefly describes this gold glue (Note: A link has been removed),

It has long been known that gold can be used to do things that philosophers have never even dreamed of. The Institute of Nuclear Physics of the Polish Academy of Sciences in Cracow has confirmed the existence of ‘gold glue’: bonds involving gold atoms, capable of permanently bonding protein rings. Skilfully used by an international team of scientists, the bonds have made it possible to construct molecular nanocages with a structure so far unparalleled in nature or even in mathematics (Nature, “An ultra-stable gold-coordinated protein cage displaying reversible assembly”).

Caption: The ‘impossible’ sphere, i.e. a molecular nanocage of 24 protein rings, each of which has an 11-sided structure. The rings are connected by bonds with the participation of gold atoms, here marked in yellow. Depending on their position in the structure, not all gold atoms have to be used to attach adjacent proteins (an unused gold atom is marked in red). Credit: Source: UJ, IFJ PAN

An August 6, 2019 Polish Academy of Sciences press release (also on EurekAlert but published August 7, 2019), which originated the news item, expands on the theme,

The world of science has been interested in molecular cages for years. Not without reason. Chemical molecules, including those that would under normal conditions enter into chemical reactions, can be enclosed within their empty interiors. The particles of the enclosed compound, separated by the walls of the cage from the environment, have nothing to bond with. These cages can be therefore be used, for example, to transport drugs safely into a cancer cell, only releasing the drug when they are inside it.

Molecular cages are polyhedra made up of smaller ‘bricks’, usually protein molecules. The bricks can’t be of any shape. For example, if we wanted to build a molecular polyhedron using only objects with the outline of an equilateral triangle, geometry would limit us to only three solid figures: a tetrahedron, an octahedron or an icosahedron. So far, there have been no other structural possibilities.

“Fortunately, Platonic idealism is not a dogma of the physical world. If you accept certain inaccuracies in the solid figure being constructed, you can create structures with shapes that are not found in nature, what’s more, with very interesting properties,” says Dr. Tomasz Wrobel from the Cracow Institute of Nuclear Physics of the Polish Academy of Sciences (IFJ PAN).

Dr. Wrobel is one of the members of an international team of researchers who have recently carried out the ‘impossible’: they built a cage similar in shape to a sphere out of eleven-walled proteins. The main authors of this spectacular success are scientists from the group of Prof. Jonathan Heddle from the Malopolska Biotechnology Centre of the Jagiellonian University in Cracow and the Japanese RIKEN Institute in Wako. The work described in Nature magazine took place with the participation of researchers from universities in Osaka and Tsukuba (Japan), Durham (Great Britain), Waterloo (Canada) and other research centres.

Each of the walls of the new nanocages was formed by a protein ring from which eleven cysteine molecules stuck out at regular intervals. It was to the sulphur atom found in each cysteine molecule that the ‘glue’, i.e. the gold atom, was planned to be attached. In the appropriate conditions, it could bind with one more sulphur atom, in the cysteine of a next ring. In this way a permanent chemical bond would be formed between the two rings. But would the gold atom under these conditions really be able to form a bond between the rings?

“In the Spectroscopic Imaging Laboratory of IFJ PAS we used Raman spectroscopy and X-ray photoelectron spectroscopy to show that in the samples provided to us with the test nanocages, the gold really did form bonds with sulphur atoms in cysteines. In other words, in a difficult, direct measurement, we proved that gold ‘glue’ for bonding protein rings in cages really does exist,” explains Dr. Wrobel.

Each gold atom can be treated as a stand-alone clip that makes it possible to attach another ring. The road to the ‘impossible’ begins when we realize that we don’t always have to use all of the clips! So, although all the rings of the new nanocages are physically the same, depending on their place in the structure they connect with their neighbours with a different number of gold atoms, and thus function as polygons with different numbers of vertices. 24 nanocage walls presented by the researchers were held together by 120 gold atoms. The outer diameter of the cages was 22 nanometres and the inner diameter was 16 nm.

Using gold atoms as a binder for nanocages is also important due to its possible applications. In earlier molecular structures, proteins were glued together using many weak chemical bonds. The complexity of the bonds and their similarity to the bonds responsible for the existence of the protein rings themselves did not allow for precise control over the decomposition of the cages. This is not the case in the new structures. On the one hand, gold-bonded nanocages are chemically and thermally stable (for example, they withstand hours of boiling in water). On the other hand, however, gold bonds are sensitive to an increase in acidity. By its increase, the nanocage can be decomposed in a controlled way and the contents can be released into the environment. Since the acidity within cells is greater than outside them, gold-bonded nanocages are ideal for biomedical applications.

The ‘impossible’ nanocage is the presentation of a qualitatively new approach to the construction of molecular cages, with gold atoms in the role of loose clips. The demonstrated flexibility of the gold bonds will make it possible in the future to create nanocages with sizes and features precisely tailored to specific needs.

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

An ultra-stable gold-coordinated protein cage displaying reversible assembly by Ali D. Malay, Naoyuki Miyazaki, Artur Biela, Soumyananda Chakraborti, Karolina Majsterkiewicz, Izabela Stupka, Craig S. Kaplan, Agnieszka Kowalczyk, Bernard M. A. G. Piette, Georg K. A. Hochberg, Di Wu, Tomasz P. Wrobel, Adam Fineberg, Manish S. Kushwah, Mitja Kelemen, Primož Vavpetič, Primož Pelicon, Philipp Kukura, Justin L. P. Benesch, Kenji Iwasaki & Jonathan G. Heddle Nature volume 569, pages438–442 (2019) Issue Date: 16 May 2019 DOI: https://doi.org/10.1038/s41586-019-1185-4 Published online: 08 May 2019

This paper is behind a paywall.

In memory of those in the science, engineering, or technology communities returning to or coming to live or study in Canada on Flight PS752

176 people died on the Ukraine International Airlines Flight PS752 bound for Kyiv when it was shot down in what now appears to have been a tragic mistake. 138 of those people were scheduled to take connecting flights to Canada.

I extend my profound sympathies to these and all the families that must endure this loss.

National Post’s January 11, 2020 In Memoriam tribute (in the print edition) provides a glimpse of the impact this loss is having and, likely, will continue to have for some time. Approximately 60 of the people mentioned in the tribute were identifiably members of the science, engineering, or technology communities in Canada.

  • Ardalan Ebnoddin Hamidi  Civil Engineer
  • Forough Khadem Immunologist and Mitacs employee
  • Sharieh Faghihi DDS
  • Fareed Arasteh PhD Student Molecular Genetics
  • Pedram Jadidi PhD Student Civil Engineering
  • Naser Pourshabanoshibi MD
  • Firouzeh Madani MD
  • Ghazal Nourian PhD Student Nanophotonic Energy
  • Mehran Abtahi PostDoc Civil Engineering
  • Hadis Hayatdavoudi PhD Student Electrochemistry and Corrosion Science Centre
  • Alireza Pey CEO Message Hopper (Tech Startup)
  • Milad Nahavandi Ph.D. Student Industrial Bioproduct Lab
  • Mohammad Hossein Saket Mechanical Engineer
  • Fatemah Kazerani Medical manager
  • Hamid Setarah Kokab PhD Student Mechanical Engineering
  • Samira Bashiri Research Assistant Biology
  • Shekoufeh Choopannejad MD
  • Sara Saadat Alumna 2019 Bachelor of Science in Psychology
  • Saba Saadat Undergraduate Student Biological Sciences
  • Amirhossien Ghasemi Graduate Student Biomedical Engineering
  • Razgar Rahimi Instructor Faculty of Engineering and Applied Science
  • Farideh Gholami Lecturer Ontario Tech University
  • Mansour Pourjam Laboratory Technician Ottawa Denture & Implant Centre
  • Neda Sadighi MD
  • Sajedeh Saraeian Incoming Masters Student Chemical Engineering Program
  • Roja (or Rouja) Azadian Engineer
  • Alma Oladi PhD Student, Mathematics and Statistics
  • Mansour Esnaashary Esfahani PhD Student Civil Engineering
  • Ghanimat Azhdari PhD Student Dept. of Geography, Environment and Geomatics 
  • Hiva Molani HVAC Technician
  • Pedram Mousavi Professor Mechanical Engineering
  • Mojgan Daneshmand Professor Electrical and Computer Engineering
  • Farhad Niknam DDS
  • Marzieh Foroutan PhD Student Geography and Environmental Management
  • Saeed Kashani PhD Student Chemistry
  • Delaram Dadashnejad Student Nutrition
  • Bahareh Karami (Moghadam) Technologist Capital Planning and Delivery Branch
  • Mohammad Amin Jebelli MD & Graduate Student Master of Health Science in Translational Research
  • Amirhossien Ghasemi Graduate Student Biomedical Engineering
  • Mohsen Salahi Instructor Quality Engineering, Construction Project Management, and Chemical Laboratory Analysis Programs
  • Mahsa Amirliravi Instructor Quality Engineering, Construction Project Management, and Chemical Laboratory Analysis Programs
  • Amir Hossein Saeedinia PhD Student Mechanical Engineering
  • Masoumeh Ghavi Student Engineering
  • Zeynab Asadi-Lari Science Student University of Toronto, Mississauga
  • Mohammad Hossein Asadi-Lari MD/PhD Student at the Faculty of Medicine
  • Parisa Eghbalian DDS
  • Kasra Saati Senior Quality Engineer
  • Shadi Jamshidi Chemical Engineer
  • Shahab Raana Mechanical Engineer & Student Welding Technology
  • Mohammad Mahdi Elyasi Co-founder ID Green Inc. (Agricultural Tech Startup)
  • Arash Pourzarabi Graduate Student Engineering and Computer Science
  • Pouneh Gourji Graduate Student Engineering and Computer Science
  • Mirmohammad (Mehdi) Sadeghi Civil Engineer
  • Bahareh Haj Esfandiari Civil Engineer
  • Mojtaba Abbasnezhad PhD Student Engineering
  • Arvin Morattab PhD Student École de technologie supérieure
  • Aida Farzaneh PhD Student & Lecturer Engineering Department École de technologie supérieure
  • Sara Mamani Master’s in mechanical, industrial, and geoenvironmental engineering
  • Siavash Ghafouri Azar Masters in Mechanical Engineering

The Canadian Science Policy Centre (CSPC) has also compiled a list which is more exhaustive as it includes ,members of the academic communities at large and it includes details about the universities where people taught or studied.

Richard Warnica’s moving January 11, 2019 essay (‘A continuous secretion of sorrow’: The Iran plane tragedy and a sense of what was lost) for Post Media ends with these words,

It is the sum of everything in 176 lives. It is absence piled on absence. It is too massive to conceive.

If you are inclined, I strongly suggest you read Warnica’s essay. It’s not easy to read but you might find it helpful (I found it so).

Finally, if there are any errors in or omissions from the list, please let me know so I can make corrections.

ETA January 17, 2020: Nicole Janson wrote a January 9, 2020 article for University Affairs, which provides another memorial to the members of the academic community lost in the passenger plane shot down by Iran on January 8, 2020.

Science and technology, the 2019 Canadian federal government, and the Phoenix Pay System

This posting will focus on science, technology, the tragic consequence of bureaucratic and political bungling (the technology disaster that is is the Phoenix payroll system), and the puzzling lack of concern about some of the biggest upcoming technological and scientific changes in government and society in decades or more.

Setting the scene

After getting enough Liberal party members elected to the Canadian Parliament’s House of Commons to form a minority government in October 2019, Prime Minister Justin Trudeau announced a new cabinet and some changes to the ‘science’ portfolios in November 2019. You can read more about the overall cabinet announcement in this November 20, 2019 news item by Peter Zimonjic on the Canadian Broadcasting Corporation (CBC) website, my focus will be the science and technology. (Note: For those who don’t know, there is already much discussion about how long this Liberal minority government will last. All i takes is a ‘loss of confidence’ motion and a majority of the official opposition and other parties to vote ‘no confidence’ and Canada will back into the throes of an election. Mitigating against a speedy new federal election,, the Conservative party [official opposition] needs to choose a new leader and the other parties may not have the financial resources for another federal election so soon after the last one.)

Getting back to now and the most recent Cabinet announcements, it seems this time around, there’s significantly less interest in science. Concerns about this were noted in a November 22, 2019 article by Ivan Semeniuk for the Globe and Mail,

Canadian researchers are raising concerns that the loss of a dedicated science minister signals a reduced voice for their agenda around the federal cabinet table.

“People are wondering if the government thinks its science agenda is done,” said Marie Franquin, a doctoral student in neuroscience and co-president of Science and Policy Exchange, a student-led research-advocacy group. “There’s still a lot of work to do.”

While not a powerful player within cabinet, Ms. Duncan [Kirsty Duncan] proved to be an ardent booster of Canada’s research community and engaged with its issues, including the muzzling of federal scientists by the former Harper government and the need to improve gender equity in the research ecosystem.

Among Ms. Duncan’s accomplishments was the appointment of a federal chief science adviser [sic] and the commissioning of a landmark review of Ottawa’s support for fundamental research, chaired by former University of Toronto president David Naylor

… He [Andre Albinati, managing principal with Earnscliffe Strategy Group] added the role of science in government is now further bolstered by chief science adviser [sic] Mona Nemer and a growing network of departmental science advisers [sic]. .

Mehrdad Hariri, president of the Canadian Science Policy Centre …, cautioned that the chief science adviser’s [sic] role was best described as “science for policy,” meaning the use of science advice in decision-making. He added that the government still needed a separate role like that filled by Ms. Duncan … to champion “policy for science,” meaning decisions that optimize Canada’s research enterprise.

There’s one other commentary (by CresoSá) but I’m saving it for later.

The science minister disappears

There is no longer a separate position for Science. Kirsty Duncan was moved from her ‘junior’ position as Minister of Science (and Sport) to Deputy Leader of the government. Duncan’s science portfolio has been moved over to Navdeep Bains whose portfolio evolved from Minister of Innovation, Science and Economic Development (yes, there were two ‘ministers of science’) to Minister of Innovation, Science and Industry. (It doesn’t make a lot of sense to me. Sadly, nobody from the Prime Minister’s team called to ask for my input on the matter.)

Science (and technology) have to be found elsewhere

There’s the Natural Resources (i.e., energy, minerals and metals, forests, earth sciences, mapping, etc.) portfolio which was led by Catherine McKenna who’s been moved over to Infrastructure and Communities. There have been mumblings that she was considered ‘too combative’ in her efforts. Her replacement in Natural Resources is Seamus O’Regan. No word yet on whether or not, he might also be ‘too combative’. Of course, it’s much easier if you’re female to gain that label. (You can read about the spray-painted slurs found on the windows of McKenna’s campaign offices after she was successfully re-elected. See: Mike Blanchfield’s October 24, 2019 article for Huffington Post and Brigitte Pellerin’s October 31, 2019 article for the Ottawa Citizen.)

There are other portfolios which can also be said to include science such as Environment and Climate Change which welcomes a new minister, Jonathan Wilkinson moving over from his previous science portfolio, Fisheries, Oceans, and Canadian Coast Guard where Bernadette Jordan has moved into place. Patti Hajdu takes over at Heath Canada (which despite all of the talk about science muzzles being lifted still has its muzzle in place). While it’s not typically considered a ‘science’ portfolio in Canada, the military establishment regardless of country has long been considered a source of science innovation; Harjit Sajjan has retained his Minister of National Defence portfolio.

Plus there are at least half a dozen other portfolios that can be described as having significant science and/or technology elements folded into their portfolios, e.g., Transport Canada, Agriculture and Agri-Food, Safety and Emergency Preparedness, etc.

As I tend to focus on emerging science and technology, most of these portfolios are not ones I follow even on an irregular basis meaning I have nothing more to add about them in this posting. Mixing science and technology together in this posting is a reflection of how tightly the two are linked together. For example, university research into artificial intelligence is taking place on theoretical levels (science) and as applied in business and government (technology). Apologies to the mathematicians but this explanation is already complicated and I don’t think I can do justice to their importance.

Moving onto technology with a strong science link, this next portfolio received even less attention than the ‘science’ portfolios and I believe that’s undeserved.

The Minister of Digital Government and a bureaucratic débacle

These days people tend to take the digital nature of daily life for granted and that may be why this portfolio has escaped much notice. When the ministerial posting was first introduced, it was an addition to Scott Brison’s responsibilities as head of the Treasury Board. It continued to be linked to the Treasury Board when Joyce Murray* inherited Brison’s position, after his departure from politics. As of the latest announcement in November 2019, Digital Government and the Treasury Board are no longer tended to by the same cabinet member.

The new head of the Treasury Board is Jean-Yves Duclos while Joyce Murray has held on to the Minister of Digital Government designation. I’m not sure if the separation from the Treasury Board is indicative of the esteem the Prime Minister has for digital government or if this has been done to appease someone or some group, which means the digital government portfolio could well disappear in the future just as the ‘junior’ science portfolio did.

Regardless, here’s some evidence as to why I think ‘digital government’ is unfairly overlooked, from the minister’s December 13, 2019 Mandate Letter from the Prime Minister (Note: All of the emphases are mine],

I will expect you to work with your colleagues and through established legislative, regulatory and Cabinet processes to deliver on your top priorities. In particular, you will:

  • Lead work across government to transition to a more digital government in order to improve citizen service.
  • Oversee the Chief Information Officer and the Canadian Digital Service as they work with departments to develop solutions that will benefit Canadians and enhance the capacity to use modern tools and methodologies across Government.
  • Lead work to analyze and improve the delivery of information technology (IT) within government. This work will include identifying all core and at-risk IT systems and platforms. You will lead the renewal of SSC [Shared Services Canada which provides ‘modern, secure and reliable IT services so federal organizations can deliver digital programs and services to meet Canadians’ needs’] so that it is properly resourced and aligned to deliver common IT infrastructure that is reliable and secure.
  • Lead work to create a centre of expertise that brings together the necessary skills to effectively implement major transformation projects across government, including technical, procurement and legal expertise.
  • Support the Minister of Innovation, Science and Industry in continuing work on the ethical use of data and digital tools like artificial intelligence for better government.
  • With the support of the President of the Treasury Board and the Minister of Families, Children and Social Development, accelerate progress on a new Government of Canada service strategy that aims to create a single online window for all government services with new performance standards.
  • Support the Minister of Families, Children and Social Development in expanding and improving the services provided by Service Canada.
  • Support the Minister of National Revenue on additional steps required to meaningfully improve the satisfaction of Canadians with the quality, timeliness and accuracy of services they receive from the Canada Revenue Agency.
  • Support the Minister of Public Services and Procurement in eliminating the backlog of outstanding pay issues for public servants as a result of the Phoenix Pay System.
  • Lead work on the Next Generation Human Resources and Pay System to replace the Phoenix Pay System and support the President of the Treasury Board as he actively engages Canada’s major public sector unions.
  • Support the Minister of Families, Children and Social Development and the Minister of National Revenue to implement a voluntary, real-time e-payroll system with an initial focus on small businesses.
  • Fully implement lessons learned from previous information technology project challenges and failures [e,g, the Phoenix Payroll System], particularly around sunk costs and major multi-year contracts. Act transparently by sharing identified successes and difficulties within government, with the aim of constantly improving the delivery of projects large and small.
  • Encourage the use and development of open source products and open data, allowing for experimentation within existing policy directives and building an inventory of validated and secure applications that can be used by government to share knowledge and expertise to support innovation.

To be clear, the Minister of Digital Government is responsible (more or less) for helping to clean up a débacle, i.e., the implementation of the federal government’s Phoenix Payroll System and drive even more digitization and modernization of government data and processes.

They’ve been trying to fix the Phoenix problems since the day it was implemented in early 2016.That’s right, it will be four years in Spring 2020 when the Liberal government chose to implement a digital payroll system that had been largely untested and despite its supplier’s concerns.

The Phoenix Pay System and a great sadness

The Public Service Alliance of Canada (the largest union for federal employees; PSAC) has a separate space for Phoneix on its website, which features this video,

That video was posted on September 24, 2018 (on YouTube) and, to my knowledge, the situation has not changed appreciably. A November 8, 2019 article by Tom Spears for the Ottawa Citizen details a very personal story about what can only be described as a failure on just about every level you can imagine,

Linda Deschâtelets’s death by suicide might have been prevented if the flawed Phoenix pay system hadn’t led her to emotional and financial ruin, a Quebec coroner has found.

Deschâtelets died in December of 2017, at age 52. At the time she was struggling with chronic pain and massive mortgage payments.

The fear of losing her home weighed heavily on her. In her final text message to one of her sons she said she had run out of energy and wanted to die before she lost her house in Val des Monts.

But Deschâtelets might have lived, says a report from coroner Pascale Boulay, if her employer, the Canada Revenue Agency, had shown a little empathy.

“During the final months before her death, she experienced serious financial troubles linked to the federal government’s pay system, Phoenix, which cut off her pay in a significant way, making her fear she would lose her house,” said Boulay’s report.

“A thorough analysis of this case strongly suggests that this death could have been avoided if a search for a solution to the current financial, psychological and medical situation had been made.”

Boulay found “there is no indication that management sought to meet Ms. Deschâtelets to offer her options. In addition, the lack of prompt follow-up in the processing of requests for information indicates a distressing lack of empathy for an employee who is experiencing real financial insecurity.”

Pay records “indeed show that she was living through serious financial problems and that she received irregular payments since the beginning of October 2017,” the coroner wrote.

As well, “her numerous online applications using the form for a compensation problem, in which she expresses her fear of not being able to make her mortgage payments and says that she wants a detailed statement of account, remain unanswered.”

On top of that, she had chronic back pain and sciatica and had been missing work. She was scheduled to get an ergonomically designed work area, but this change was never made even though she waited for months.

Money troubles kept getting worse.

She ran out of paid sick leave, and her department sent her an email to explain that she had automatically been docked pay for taking sick days. “In this same email, she was also advised that in the event that she missed additional days, other amounts would be deducted. No further follow-up with her was done,” the coroner wrote.

That email came eight days before her death.

Deschâtelets was also taking cocaine but this did not alter the fact that she genuinely risked losing her home over her financial problems, the coroner wrote.

“Given the circumstances, it is highly likely that Ms. Deschâtelets felt trapped” and ended her life “because of her belief that she would lose the house anyway. It was only a matter of time.”

The situation is “even more sad” because CRA had advisers on site who dealt with Phoenix issues, and could meet with employees, Boulay wrote.

“The federal government does a lot of promotion of workplace wellness. Surprisingly, these wellness measures are silent on the subject of financial insecurity at work,” Boulay wrote.

I feel sad for the family and indignant that there doesn’t seem to have been enough done to mitigate the hardships due to an astoundingly ill-advised decision to implement an untested payroll system for the federal government’s 280,000 or more civil servants.

Canada’s Senate reports back on Phoenix

I’m highlighting the Senate report here although there are also two reports from the Auditor General should you care to chase them down. From an August 1, 2018 article by Brian Jackson for IT World Canada,

In February 2016, in anticipation of the start of the Phoenix system rolling out, the government laid off 2,700 payroll clerks serving 120,000 employees. [I’m guessing the discrepancy in numbers of employees may be due to how the clerks were laid off, i.e., if they were load off in groups scheduled to be made redundant at different intervals.]

As soon as Phoenix was launched, problems began. By May 2018 there were 60,000 pay requests backlogged. Now the government has dedicated resources to explaining to affected employees the best way to avoid pay-related problems, and to file grievances related to the system.

“The causes of the failure are multiple, including, failing to manage the pay system in an integrated fashion with human resources processes, not conducting a pilot project, removing essential processing functions to stay on budget, laying off experienced compensation advisors, and implementing a pay system that wasn’t ready,” the Senate report states. “We are dismayed that this project proceeded with minimal independent oversight, including from central agencies, and that no one has accepted responsibility for the failure of Phoenix or has been held to account. We believe that there is an underlying cultural problem that needs to be addressed. The government needs to move away from a culture that plays down bad news and avoids responsibility, [emphasis mine] to one that encourages employee engagement, feedback and collaboration.”

There is at least one estimate that the Phoenix failure will cost $2.2 billion but I’m reasonably certain that figure does not include the costs of suicide, substance abuse, counseling, marriage breakdown, etc. (Of course, how do you really estimate the cost of a suicide or a marriage breakdown or the impact that financial woes have on children?)

Also concerning the Senate report, there is a July 31, 2018 news item on CBC (Canadian Broadcasting Corporation) news online,

“We are not confident that this problem has been solved, that the lessons have all been learned,” said Sen. André Pratte, deputy chair of the committee. [emphases mine]

I haven’t seen much coverage about the Phoenix Pay System recently in the mainstream media but according to a December 4, 2019 PSAC update,

The Parliamentary Budget Officer has said the Phoenix situation could continue until 2023, yet government funding commitments so far have fallen significantly short of what is needed to end the Phoenix nightmare. 

PSAC will continue pressing for enough funding and urgent action:

  • eliminate the over 200,000 cases in the pay issues backlog
  • compensate workers for their many hardships
  • stabilize Phoenix
  • properly develop, test and launch a new pay system

2023 would mean the débacle had a seven year lifespan, assuming everything has been made better by then.

Finally, there seems to be one other minister tasked with the Phoenix Pay System ‘fix’ (December 13, 2019 mandate letter) and that is the Minister of Public Services and Procurement, Anita Anand. She is apparently a rookie MP (member of Parliament), which would make her a ‘cabinet rookie’ as well. Interesting choice.

More digital for federal workers and the Canadian public

Despite all that has gone before, the government is continuing in its drive to digitize itself as can be seen in the Minister of Digital Government’s mandate letter (excerpted above in ‘The Minister of Digital Government and some …’ subsection) and on the government’s Digital Government webspace,

Our digital shift to becoming more agile, open, and user-focused. We’re working on tomorrow’s Canada today.

I don’t find that particularly reassuring in light of the Phoenix Payroll System situation. However, on the plus side, Canada has a Digital Charter with 10 principles which include universal access, safety and security, control and consent, etc. Oddly, it looks like it’s the Minister of Justice and Attorney General of Canada, the Minister of Canadian Heritage and the Minister of Innovation, Science and Industry who are tasked with enhancing and advancing the charter. Shouldn’t this group also include the Minister of Digital Government?

The Minister of Digital Government, Joyce Murray, does not oversee a ministry and I think that makes this a ‘junior’ position in much the same way the Minister of Science was a junior position. It suggests a mindset where some of the biggest changes to come for both employees and the Canadian public are being overseen by someone without the resources to do the work effectively or the bureaucratic weight and importance to ensure the changes are done properly.

It’s all very well to have a section on the Responsible use of artificial intelligence (AI) on your Digital Government webspace but there is no mention of ways and means to fix problems. For example, what happens to people who somehow run into an issue that the AI system can’t fix or even respond to because the algorithm wasn’t designed that way. Ever gotten caught in an automated telephone system? Or perhaps more saliently, what about the people who died in two different airplane accidents due to the pilots’ poor training and an AI system? (For a more informed view of the Boeing 737 Max, AI, and two fatal plane crashes see: a June 2, 2019 article by Rachel Kraus for Mashable.)

The only other minister whose mandate letter includes AI is the Minister of Innovation, Science and Industry, Navdeep Bains (from his December 13, 2019 mandate letter),

  • With the support of the Minister of Digital Government, continue work on the ethical use of data and digital tools like artificial intelligence for better government.

So, the Minister of Digital Government, Joyce Murray, is supporting the Minister of Innovation, Science and Industry, Navdeep Bains. That would suggest a ‘junior’ position wouldn’t it? If you look closely at the Minister of Digital Services’ mandate letter, you’ll see the Minister is almost always supporting another minister.

Where the Phoenix Pay System is concerned, the Minister of Digital Services is supporting the Minister of Public Services and Procurement, the previously mentioned rookie MP and rookie Cabinet member, Anita Anand. Interestingly, the employees’ union, PSAC, has decided (as of a November 20, 2019 news release) to ramp up its ad campaign regarding the Phoenix Pay System and its bargaining issues by targeting the Prime Minister and the new President of the Treasury Board, Jean-Yves Duclos. Guess whose mandate letter makes no mention of Phoenix (December 13, 2019 mandate letter for the President of the Treasury Board).

Open government, eh?

Putting a gift bow on a pile of manure doesn’t turn it into a gift (for most people, anyway) and calling your government open and/or transparent doesn’t necessarily make it so even when you amend your Access to Information Act to make it more accessible (August 22, 2019 Digital Government news release by Ruth Naylor).

One of the Liberal government’s most heavily publicized ‘open’ initiatives was the lifting of the muzzles put on federal scientists in the Environment and Natural Resources ministries. Those muzzles were put into place by a Conservative government and the 2015 Liberal government gained a lot of political capital from its actions. No one seemed to remember that Health Canada also had been muzzled. That muzzle had been put into place by one of the Liberal governments preceding the Conservative one. To date there is no word as to whether or not that muzzle has ever been lifted.

However, even in the ministries where the muzzles were lifted, it seems scientists didn’t feel free to speak even many months later (from a Feb 21, 2018 article by Brian Owens for Science),

More than half of government scientists in Canada—53%—do not feel they can speak freely to the media about their work, even after Prime Minister Justin Trudeau’s government eased restrictions on what they can say publicly, according to a survey released today by a union that represents more than 16,000 federal scientists.

That union—the Professional Institute of the Public Service of Canada (PIPSC) based in Ottawa—conducted the survey last summer, a little more than a year and a half into the Trudeau government. It followed up on a similar survey the union released in 2013 at the height of the controversy over the then-Conservative government’s reported muzzling of scientists by preventing media interviews and curtailing travel to scientific conferences. The new survey found the situation much improved—in 2013, 90% of scientists felt unable to speak about their work. But the union says more work needs to be done. “The work needs to be done at the department level,” where civil servants may have been slow to implement political directives, PIPSC President Debi Daviau said. ”We need a culture change that promotes what we have heard from ministers.”

I found this a little chilling (from the PIPSC Defrosting Public Science; a 2017 survey of federal scientists webpage),

To better illustrate this concern, in 2013, The Big Chill revealed that 86% of respondents feared censorship or retaliation from their department or agency if they spoke out about a departmental decision or action that, based on their scientific knowledge, could bring harm to the public interest. In 2017, when asked the same question, 73% of respondents said they would not be able to do so without fear of censorship or retaliation – a mere 13% drop.

It’s possible things have improved but while the 2018 Senate report did not focus on scientists, it did highlight issues with the government’s openness and transparency or in their words: “… a culture that plays down bad news and avoids responsibility.” It seems the Senate is not the only group with concerns about government culture; so do the government’s employees (the scientists, anyway).

The other science commentary

I can’t find any commentary or editorials about the latest ministerial changes or the mandate letters on the Canadian Science Policy Centre website so was doubly pleased to find this December 6, 2019 commentary by Creso Sá for University Affairs,

The recently announced Liberal cabinet brings what appear to be cosmetic changes to the science file. Former Science Minister Kirsty Duncan is no longer in it, which sparked confusion among casual observers who believed that the elimination of her position signalled the termination of the science ministry or the downgrading of the science agenda. In reality, science was and remains part of the renamed Ministry of Innovation, Science, and (now) Industry (rather than Economic Development), where Minister Navdeep Bains continues at the helm.

Arguably, these reactions show that appearances have been central [emphasis mine] to the modus operandi of this government. Minister Duncan was an active, and generally well-liked, champion for the Trudeau government’s science platform. She carried the torch of team science over the last four years, becoming vividly associated with the launch of initiatives such as the Fundamental Science Review, the creation of the chief science advisor position, and the introduction of equity provisions in the Canada Research Chairs program. She talked a good talk, but her role did not in fact give her much authority to change the course of science policy in the country. From the start, her mandate was mostly defined around building bridges with members of cabinet, which was likely good experience for her new role of deputy house leader.

Upon the announcement of the new cabinet, Minister Bains took to Twitter to thank Dr. Duncan for her dedication to placing science in “its rightful place back at the centre of everything our government does.” He indicated that he will take over her responsibilities, which he was already formally responsible for. Presumably, he will now make time to place science at the centre of everything the government does.

This kind of sloganeering has been common [emphasis mine] since the 2015 campaign, which seems to be the strategic moment the Liberals can’t get out of. Such was the real and perceived hostility of the Harper Conservatives to science that the Liberals embraced the role of enlightened advocates. Perhaps the lowest hanging fruit their predecessors left behind was the sheer absence of any intelligible articulation of where they stood on the science file, which the Liberals seized upon with gusto. Virtue signalling [emphasis mine] became a first line of response.

When asked about her main accomplishments over the past year as chief science advisor at the recent Canadian Science Policy Conference in Ottawa, Mona Nemer started with the creation of a network of science advisors across government departments. Over the past four years, the government has indeed not been shy about increasing the number of appointments with “science” in their job titles. That is not a bad thing. We just do not hear much about how “science is at the centre of everything the government does.” Things get much fuzzier when the conversation turns to the bold promises of promoting evidence-based decision making that this government has been vocal about. Queried on how her role has impacted policy making, Dr. Nemer suggested the question should be asked to politicians. [emphasis mine]

I’m tempted to describe the ‘Digital Government’ existence and portfolio as virtue signalling.

Finally

There doesn’t seem to be all that much government interest in science or, even, technology for that matter. We have a ‘junior’ Minister of Science disappear so that science can become part of all the ministries. Frankly, I wish that science were integrated throughout all the ministries but when you consider the government culture, this move more easily lends itself to even less responsibility being taken by anyone. Take another look at the Canada’s Chief Science Advisor’s comment: “Queried on how her role has impacted policy making, Dr. Nemer suggested the question should be asked to politicians.” Meanwhile, we get a ‘junior Minister of Digital Government whose portfolio has the potential to affect Canadians of all ages and resident in Canada or not.

A ‘junior’ minister is not necessarily evil as Sá points out but I would like to see some indication that efforts are being made to shift the civil service culture and the attitude about how the government conducts its business and that the Minister of Digital Government will receive the resources and the respect she needs to do her job. I’d also like to see some understanding of how catastrophic a wrong move has already been and could be in the future along with options for how citizens are going to be making their way through this brave new digital government world and some options for fixing problems, especially the catastrophic ones.

*December 30, 2019 correction: After Scott Brison left his position as President of the Treasury Board and Minister of Digital Government in January 2019, Jane Philpott held the two positions until March 2019 when she left the Liberal Party. Carla Quatrough was acting head from March 4 – March 18, 2019 when Joyce Murray was appointed to the two positions which she held for eight months until November 2019 when, as I’ve noted, the ‘Minister of Digital Government’ was split from the ‘President of the Treasury Board’ appointment.

ETA January 28, 2020: The Canadian Broadcasting Corporation (CBC) has an update on the Phoenix Pay System situation in a January 28, 2020 posting (supplied by The Canadian Press),

More than 98,000 civil servants may still owe the federal government money after being overpaid through the disastrous Phoenix pay system.

… the problems persist, despite the hiring of hundreds of pay specialists to work through a backlog of system errors.

The public service pay centre was still dealing with a backlog of about 202,000 complaints as of Dec. 24 [2019], down from 214,000 pay transactions that went beyond normal workload in November [2019].