Miah and the Olympics; birth of the buckyball

February 8th, 2010

Given that the Winter Olympics are due to open later this week in Vancouver (Canada), there is a  flurry of interest in gene doping and other means of enhancing athletic performance. (I’m mentioning this because developments in elite athletics find their way into consumer markets and because of my interest in human enhancement.) For example, the University of British Columbia (UBC) is hosting,

Sport, Ethics and Technology: Is High Performance Sport Inconsistent with Ideals and Ethics?

Date/time: Monday, February 8, 8 p.m.

Location: Chan Centre for the Performing Arts
University of British Columbia
6265 Crescent Road, Vancouver
For a map and closest parking, visit: www.maps.ubc.ca?130

As the Vancouver 2010 Olympic Winter Games approach, Olympic athletes will come under close public scrutiny.  New technology will offer unexpected advantages that will challenge the boundaries of what is considered a level playing field.

And given those challenges, how do we determine what is ethical and fair? These questions are explored with Richard Pound followed by a panel discussion with Jim Rupert, Beckie Scott and other participants.

*Richard Pound is a former Olympic swimmer, McGill Chancellor and World Anti-Doping Agency Chairman.

*Jim Rupert is an associate professor in the School of Human Kinetics at UBC. His research looks at future trends in doping and doping control as it pertains to genetics and “gene-doping.”

*Beckie Scott is a former Olympic cross-country ski racer who currently serves as a member of the IOC.

This event is one of five provocative dialogues presented by UBC’s Sport and Society series during February and March. Find details at: http://bit.ly/9LuMXO

Friday, Feb. 5, 2010, the lead article in Section B of The Vancouver Sun by Margaret Munro was (print version), Gene Doping; The latest way to boost performance. The article noted that Andy Miah, at the University of the West of Scotland, in contrast to Olivier Rabin and Theodore Friedmann, the experts (whose study was just published in the journal Science) quoted in the article, suggests that gene doping may be safer than current methods of enhancing performance.

I have mentioned Andy before (here in my series on human enhancement and here regarding a book he edited on art and the future). His response to the Rabin/Friedmann concerns is here. An abstract of Rabin and Friedmann’s article is available here but the full article is behind a paywall.

Andy was also featured in an article in The WestEnder (a Vancouver community newspaper) by Jackie Wong titled (in the print version), New-media [sic] centre seeks to democratize Olympic coverage. From the article,

“We can say that Vancouver 2010 is the first truly digital Olympic Games,” says Andy Miah, chair in Ethics and Emerging Technologies in the School of Media, Language, and Music at the University of the West of Scotland. Miah has been researching new media and the Olympics for 10 years, at six Olympic Games.

Andy has written an essay about new media and its role at the Vancouver 2010 Olympics at Huffington Post. From the essay,

…. perhaps the most interesting dimension of Vancouver’s media culture is the rise of three other media entities, the first of which is the W2 Centre on Hastings, led by Irwin Oostindie. W2 is a cultural and arts infrastructure, serving the independent sector. It will run an extensive programme of art, debate and cultural experiences, some of which will have buy in from the Vancouver Organizing Committee (VANOC), while other elements will be more independent. To this end, W2 will serve as a bridge between the privileged participants and the critical commentators around Games time. For example, they will host the Legal Observers programme, headed up by the Pivot Legal Society and BC Civil Liberties Association, which will monitor the operations of Olympic security during Games time. It will also host a cultural collaboration between the London 2012 and Vancouver 2010 Cultural Olympiads, as part of the UK’s Abandon Normal Devices festival, led by England’s Northwest.

You can read more here.

I’ve now mentioned the two areas that Andy sees as the two major controversies from the Vancouver Olympics, doping and new media activism.

One final note on this, Andy will be bringing a team of about 10 students from his university in Scotland who will be blogging from this site, Culture@tO Vancouver 2010. I’m not sure what the start date will be, presumably Feb. 12, 2010 when the games open.

Bucky balls are the popular name for the buckminsterfullerene (aka fullerene). Named for Buckminster Fuller, the molecule resembles one of Fuller’s geodesic domes. (There’s a geodesic dome in Vancouver which houses our local science centre and during the Olympics it will be home to the Sochi [host for 2014 Olympics], Russia pavilion.) The fullerene was first discovered at Rice University in Texas and this year marks its 25th anniversary and what many describe as the birth of nanotechnology. In celebration, the university is hosting a technical symposium.  From the news item on Nanowerk,

On Oct. 11-13, the best minds in carbon nanotechnology will gather at Rice University for a technical symposium during the Year of Nano, a series of events at the university celebrating the 25th anniversary of nano’s big bang.

Hmmm … I may have gone a little ‘link happy’ today. Tomorrow I should be looking at nano sponges and patents. Later this week I expect to be posting my interview with Dr. Cheryl Geisler, the new dean for Simon Fraser University’s new Faculty of Communication, Art and Technology (FCAT).

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Posted in New Media, Vancouver, health | No Comments »

SFU scientists set their phasers on stun; quantum biology and University of Toronto Chemists; P.R. and science journalism

February 5th, 2010

Neil Branda and his colleagues from Simon Fraser University’s (SFU) 4D Labs have demonstrated that animals can be ’switched off ‘ with exposure to ultra violet light then ’switched on’ when exposed to standard light. From the news item on Nanowerk,

In an advance with overtones of Star Trek phasers and other sci-fi ray guns, scientists in Canada are reporting development of an internal on-off “switch” that paralyzes animals when exposed to a beam of ultraviolet light. The animals stay paralyzed even when the light is turned off. When exposed to ordinary light, the animals become unparalyzed and wake up.

In more Canadian news, chemists at the University of Toronto have observed quantum mechanics at work with marine algae.  From the news item on Nanowerk,

“There’s been a lot of excitement and speculation that nature may be using quantum mechanical practices,” says chemistry professor Greg Scholes, lead author of a new study published this week in Nature. “Our latest experiments show that normally functioning biological systems have the capacity to use quantum mechanics in order to optimize a process as essential to their survival as photosynthesis.”

Special proteins called light-harvesting complexes are used in photosynthesis to capture sunlight and funnel its energy to nature’s solar cells – other proteins known as reaction centres. Scholes and his colleagues isolated light-harvesting complexes from two different species of marine algae and studied their function under natural temperature conditions using a sophisticated laser experiment known as two-dimensional electronic spectroscopy.

… It also raises some other potentially fascinating questions, such as, have these organisms developed quantum-mechanical strategies for light-harvesting to gain an evolutionary advantage? It suggests that algae knew about quantum mechanics nearly two billion years before humans,” says Scholes.

Is Scholes suggesting the algae are more advanced with science than humans? I find that thought intriguing and perhaps useful if one believes that human beings are remarkably arrogant creatures who can benefit from a little humility.

On a completely different front, I’ve been doing some more thinking about science journalism and science public relations (I did refer to some of it in my series on science communication in Canada on this blog in Sept/Oct 2009 ) after last week’s posting about a science journalism study in the UK. In fact, my thinking on these matters was reignited by a posting Ruth Seeley made on her No Spin PR blog about why she calls her business ‘no spin’ and why she prefers the term ‘framing’,

Implicit in the word spin is the idea that deception is involved, facts are being turned on their heads, and/or there’s so much fast talking going on the truth would be unrecognizable even if it were part of the mix. The ‘truth’ is, it’s as much of an insult to call a public relations practitioner a ’spin doctor’ as it is to call a woman a ‘chick.’ And it is a female-dominated profession, although not yet at the most senior levels.

Despite the cross-fertilization that occurs between journalists and PR practitioners (since writing well is the foundation skill for both professions), there is also the perception that journalists are those who ferret out the truth and present it objectively, while PR folks do their best to deflect, disguise, and distract from the truth. The notion of the muck-racking journalist being free of bias is laughable in the 21st Century. We wouldn’t have populist, right-wing, and left-wing media outlets if bias weren’t inherent in every medium, whether it’s the way the headline is written, the fact that the story is covered at all, or the selective presentation of facts. The notion that objectivity is in disrepute is, thankfully, permeating the zeitgeist – and not a moment too soon.

Whether you view the world through rose-coloured glasses or not, whether you think all politicians are dishonest or revere those who occupy the corridors of delegated power, whether you’re a MacHead or a PC fan, we all have filters we apply to information, and these filters affect our decision-making processes.

There is nothing illegal, immoral, or unethical about choosing a frame. You need to be aware that there’s more than one framing choice. You need to consider the fact that others won’t choose the same frame as you. Ultimately, though, you will have to either pick one or leave the picture unframed. Choosing a frame and developing a strategy for its presentation is the heart of public relations. As a practitioner, aligning yourself with clients whose framing aligns with your beliefs and values is the soul of a successful PR consultancy.

Perception has never been reality. It just appears to be. That, I suspect, is a natural consequence of the human condition.

I mention Ruth in particular because her consultancy seems to be largely focused on science public relations (she does projects for Andrew Maynard [2020 Science] and, as you can see in her post, she is involved with the twitter science community).  Her comments reminded me of a rather provocative posting on Techdirt in May 2009,

One of the most common complaints about the trouble facing newspapers today is the woeful cry “but who will do investigative journalism?” Of course, that’s silly. There are plenty of new entities springing up everyday online that do investigative journalism — and do it well.

Romenesko points us to a column by Tim Cavanaugh taking this concept one step further: suggesting that a subset of PR people may end up taking on the role of investigative journalists . Now, I’m sure plenty of journalists are cringing at the concept — and certainly, as someone who gets bombarded daily with idiotic story pitches that are spun to such ridiculous levels I can only laugh at them (as I hit delete), it makes me cringe a bit. But some of his points are worth thinking about.

I went on to check Tim Cavanaugh’s article and after a brief description of the current publishing crisis and its effect on investigative journalism,

Here’s one hypothesis. Numbers from the U.S. Bureau of Labor Statistics suggest that in the decade from 1998 through 2007, another field was outgrowing, and perhaps growing at the expense of, traditional journalism. The number of people working as “reporters and correspondents” declined slightly in that period, from 52,380 in 1998 to 51,620 in 2007. But the number of public relations specialists more than doubled, from 98,240 to 225,880. (Because job types and nomenclature change substantially, I have used only directly comparable jobs. The U.S. economy was still supporting 7,360 paste-up workers in 1998, for example, while in 2007 some 29,320 Americans were working under the already antique title “desktop publishers.”)

So are flacks the future, or even the present, of investigative journalism? This interpretation makes intuitive sense. Important data points by which we continue to live our lives— the number of jobs that were created or destroyed by NAFTA, the villainy of the Serbs in the Yugoslav breakup, all sorts of projected benefits or disasters in President Obama’s budget plans— are largely the inventions of P.R. workers.

And though it’s considered wise to believe the contrary, these communications types are not constructing all these news items entirely (or even mostly) by lying. Flackery requires putting together credible narratives from pools of verifiable data. This activity is not categorically different from journalism. Nor is the teaching value that flackery provides entirely different from that of journalism: Most of the content you hear senators and congressmen reading on C-SPAN is stuff flacks provided to staffers.

The debate itself is not all that new as the relationship between public relations and journalism is at least one century old. One of the earliest PR practitioners was a former journalist, Ivy Lee. As for borrowing from the social sciences (the term framing as used in Ruth’s posting is from the social sciences), that too can be traced backwards, in this case, to the 1920s and Edward Bernays who viewed public relations as having huge potential for social engineering.Towards the end of his life (1891 – 1995) he was quite disappointed, (according Stuart Ewen’s book, PR! A Social History of Spin) in how the field of public relations had evolved. Ewen (wikipedia entry) is highly critical of the profession as per this May 2000 interview with David Barsamian,

Part of why the history of PR is so interesting is because you see that it’s a history of a battle for what is reality and how people will see and understand reality. PR isn’t functioning in a vacuum. PR is usually functioning to try to protect itself against other ideas that are percolating within a society. So under no circumstances should what I’m saying about Bernays in terms of the use of social psychology indicate that these are automatic processes that always work. They don’t always work. They don’t always work because to some extent, despite what [Walter] Lippman said, people don’t just function by pictures in their heads. They also experience things from their own lives. Often their experiences are at odds with the propaganda that’s being pumped out there.

As you can see, for Ewen PR is synonymous with propaganda which, by the way, was the title for a book by Edward Bernays.

I’ve worked in public relations and in marketing and find that the monolithic claims made by folks such as Ewen have elements of truth but that much of the analysis is simplistic. That said, I think the criticism is important and quite well placed as there have been some egregious and deeply false claims made by PR practitioners on behalf of their clients. Still, it bothers me that everyone is contaminated by the same brush.  Getting back to Ruth’s post: In a sense, we are all PR professionals. All of us choose our frames and we constantly communicate them to each other.

Happy weekend.

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Posted in science communication, writing | 2 Comments »

Nanotechnology and site remediation; nano company gives aid to Haiti; nano commodity exchange; new Canadian photovoltaic research network; sensual nanotechnology

February 3rd, 2010

Tomorrow morning, Feb. 4, 2010, the Project on Emerging Nanotechnologies (PEN) will be webcasting an event titled, Contaminated Site Remediation: Are Nanomaterials the Answer? It starts at 9:30 am PST and the webcast can accessed from here.  Unfortunately I won’t be able to attend the live webcast but I will try to listen to it when they post the feed on their site a few days later. I did post more information, including a link to PEN’s site remediation map, about this event here.

More or less coincident with this event and on a somewhat related note, there is a donation from the company Nanoscale to relief efforts in Haiti. From the news item on Azonano,

NanoScale’s products and expertise in chemical and biological decontamination will provide protection and odor control to those most affected. NanoScale has donated NanoZorb®, a portable decomposition decontamination system based on products originally developed for U.S. military decontamination applications, to selected groups to aid their recovery efforts.

While it is likely as much a public relations effort as relief, bravo!

I’ve come across many comments as to how nanotechnology could be helpful to the environment but most of the examples I’ve seen are in the energy sector (i.e., ways nanotechnology-enabled products can reduce energy use). I’m hopeful these site remediation and decontamination nanotechnology efforts will be helpful and won’t become future problems.

There is a new commodities exchange on the horizon, Integrated Nano-Science Commodity Exchange (INSCX). From the news item on Nanowerk,

INSCX™ – Integrated Nano-Science Commodity Exchange, a patent-pending project to develop a global commodity exchange platform for trade in nano objects, materials and commodities, has formalised an agreement with AssuredNano™ [SHE] to co-ordinate the global accreditation of supply onto the market platform which is scheduled to launch in the UK early 2011.

AssuredNano™ is the premier Safety, Health and Environment (SHE) accreditation scheme for organisations producing nanomaterials, nano-enabled products and users of nanotechnology in general. It promotes the responsible and proactive application of nanomaterial SHE good current practice within the nanomaterials and nanotechnology community.

INSCX™, is designed to provide the “hub to the wheel of nanotechnologies” where the interests of business can co-exist with those of state governments, regional authorities, specialist agencies, research bodies, and consumer groups to deliver ethical and commercial cohesion across nanotechnologies.

I’m trying to figure out how AssuredNano can supply accreditation when there are no internationally accepted standard definitions for terms such as nanomaterials. (The International Standards Organization [ISO] has developed definitions but I have not seen any indication that they have been adopted as standards.) The AssuredNano site does not provide any details about their accreditation scheme, as you can see for yourself here. I hope to see more detailed information before the exhange starts in 2011.

As I noted earlier, most of the nanotechnology environmental news is focused on energy. Canada’s Natural Sciences and Engineering Research Council (NSERC) just this week announced the establishment of a new solar photovoltaic research network headquartered at McMaster University. From the news item on physorg.com,

The Natural Sciences and Engineering Research Council of Canada (NSERC) announced $5 million in funding today for the establishment of the NSERC Photovoltaic Innovation Network. The Network is comprised of 29 top scientists and engineers working in the field of advanced solar cell research at 13 universities across Canada. Eleven private sector companies are also part of the network.

The Network aims to raise the status of solar photovoltaics (PV) as a renewable energy option in Canada by accelerating research and development and commercializing the outcomes.

Now on a completely different note, the sensual side of nanotechnology. From the news item on Nanowerk,

Pin-sharp projections, light that’s whiter than white, varnishes that make sounds if the temperature changes: at nano tech 2010 in Tokyo, Fraunhofer researchers present nanotechnology that is a veritable feast for the senses.

A mystical glow emanates from the display case. A white light appears out of nowhere. And a light source is invisible – at least at first glance. Only upon close examination does the source of the apparently supernatural illumination become visible: a light diode, smaller than a pinhead, passes through thousands of infinitesimal lens structures measuring only a few hundred nanometers, et voilà: beaming white light.

Nanotechnology not only puts an entirely new dimension before the eye, it also makes audible things that no ear could ever perceive before: like changes in temperature. A new varnish developed by researchers at the Fraunhofer Institute for Engineering and Automation IPA ensures that surfaces emit sound if they become warmer or cool off. The trick: carbon nano-tubes embedded in the varnish that conduct electricity …

In addition to sight and sound, I have one more sense to cover, touch. From the news item, Multitouch ‘Skin’ Transforms Surfaces into Interactive Screens, on physorg.com,

The DISPLAX Multitouch Technology, believed to be the first of its kind, has been developed based on a transparent thinner-than-paper polymer film. When applied to glass, plastic or wood, the surface becomes interactive. Significantly, this new multitouch technology can be applied to standard LCD screens as well, making it an attractive choice for LCD manufacturers. The new technology will also be available for audiovisual integrators or gaming platforms to develop innovative products.

The DISPLAX Multitouch Technology dramatically extends the capabilities of the interactive format. It can be applied to flat or curved, opaque as well as transparent surfaces up to three metres across the diagonal. It is hyper sensitive, allowing users to interact with an enabled surface not just by touching it but, for the first time, by blowing on it, opening up new possibilities for future applications. Currently, the technology can detect up to 16 fingers on a 50-inch screen. The number of fingers detected is expected to increase as development progresses.

It may take a while before pure white light or varnish that you can hear comes to market but the multitouch ’skin’ is here as a harbinger of what is to come. Offhand, I’m not sure I want to hear varnish. It seems to me that it would be like having an alarm that I can’t shut off  which means I could be confronted with any number of products that are emitting sounds because they are too hot or too cold or nearing the end of their product lives or, worse yet, malfunctioning.

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nanoBIDS; military robots from prototype to working model; prosthetics, the wave of the future?

February 2nd, 2010

The Nanowerk website is expanding. From their news item,

Nanowerk, the leading information provider for all areas of nanotechnologies, today added to its nanotechnology information portal a new free service for buyers and vendors of micro- and nanotechnology equipment and services. The new application, called nanoBIDS, is now available on the Nanowerk website. nanoBIDS facilitates the public posting of Requests for Proposal (RFPs) for equipment and services from procurement departments in the micro- and nanotechnologies community. nanoBIDS is open to all research organizations and companies.

I checked out the nanoBIDS page and found RFP listings from UK, US (mostly), and Germany. The earliest are dated Jan.25, 2010 so this site is just over a week old and already has two pages.

The Big Dog robot (which I posted about briefly here) is in the news again. Kit Eaton (Fast Company) whose article last October first alerted me to this device now writes that the robot is being put into production. From the article (Robocalypse Alert: Defense Contract Awarded to Scary BigDog),

The contract’s been won by maker Boston Dynamics, which has just 30 months to turn the research prototype machines into a genuine load-toting, four-legged, semi-intelligent war robot–”first walk-out” of the newly-designated LS3 is scheduled in 2012.

LS3 stands for Legged Squad Support System, and that pretty much sums up what the device is all about: It’s a semi-autonomous assistant designed to follow soldiers and Marines across the battlefield, carrying up to 400 pounds of gear and enough fuel to keep it going for 24 hours over a march of 20 miles.

They have included a video of the prototype on a beach in Thailand and as Eaton notes, the robot is “disarmingly ‘cute’” and, to me, its legs look almost human-shaped, which leads me to my next bit.

I found another article on prosthetics this morning and it’s a very good one. Written by Paul Hochman for Fast Company, Bionic Legs, iLimbs, and Other Super-Human Prostheses delves further into the world where people may be willing to trade a healthy limb for a prosthetic. From the article,

There are many advantages to having your leg amputated.

Pedicure costs drop 50% overnight. A pair of socks lasts twice as long. But Hugh Herr, the director of the Biomechatronics Group at the MIT Media Lab, goes a step further. “It’s actually unfair,” Herr says about amputees’ advantages over the able-bodied. “As tech advancements in prosthetics come along, amputees can exploit those improvements. They can get upgrades. A person with a natural body can’t.”

I came across both a milder version of this sentiment and a more targeted version (able-bodied athletes worried about double amputee Oscar Pistorius’ bid to run in the Olympics rather than the Paralympics) when I wrote my four part series on human enhancement (July 22, 23, 24 & 27, 2009).

The Hochman article also goes on to discuss some of the aesthetic considerations (which I discussed in the same posting where I mentioned the BigDog robots). What Hochman does particularly well is bringing all this information together and explaining how the lure of big money (profit) is stimulating market development,

Not surprisingly, the money is following the market. MIT’s Herr cofounded a company called iWalk, which has received $10 million in venture financing to develop the PowerFoot One — what the company calls the “world’s first actively powered prosthetic ankle and foot.” Meanwhile, the Department of Veterans Affairs recently gave Brown University’s Center for Restorative and Regenerative Medicine a $7 million round of funding, on top of the $7.2 million it provided in 2004. And the Defense Advanced Research Projects Administration (DARPA) has funded Manchester, New Hampshire-based DEKA Research, which is developing the Luke, a powered prosthetic arm (named after Luke Skywalker, whose hand is hacked off by his father, Darth Vader).

This influx of R&D cash, combined with breakthroughs in materials science and processor speed, has had a striking visual and social result: an emblem of hurt and loss has become a paradigm of the sleek, modern, and powerful. Which is why Michael Bailey, a 24-year-old student in Duluth, Georgia, is looking forward to the day when he can amputate the last two fingers on his left hand.

“I don’t think I would have said this if it had never happened,” says Bailey, referring to the accident that tore off his pinkie, ring, and middle fingers. “But I told Touch Bionics I’d cut the rest of my hand off if I could make all five of my fingers robotic.”

This kind of thinking is influencing surgery such that patients are asking to have more of their bodies removed.

The article is lengthy (by internet standards) and worthwhile as it contains nuggets such as this,

But Bailey is most surprised by his own reaction. “When I’m wearing it, I do feel different: I feel stronger. As weird as that sounds, having a piece of machinery incorporated into your body, as a part of you, well, it makes you feel above human. It’s a very powerful thing.”

So the prosthetic makes him “feel above human,” interesting, eh? It leads to the next question (and a grand and philosophical one it is), what does it mean to be human? At least lately, I tend to explore that question by reading fiction.

I have been intrigued by Catherine Asaro’s Skolian Empire series of books. The series features human beings (mostly soldiers) who have something she calls ‘biomech’  in their bodies to make them smarter, stronger, and faster. She also populates worlds with people who’ve had (thousands of years before) extensive genetic manipulation so they can better adapt to their new homeworlds. Her characters represent different opinions about the ‘biomech’ which is surgically implanted usually in adulthood and voluntarily. Asaro is a physicist who writes ‘hard’ science fiction laced with romance. She handles a great many thorny social questions in the context of this Skolian Empire that she has created where the technologies (nano, genetic engineering, etc.)  that we are exploring are a daily reality.

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Window sunglasses; insect microids; open access to science research?; theatre and science

February 1st, 2010

Having windows that can darken or lighten according to the amount of sunshine would save money and energy. Such windows have been around for over two decades but they haven’t worked very well. Researchers at the US National Renewable Energy Laboratory (NREL) are working on a new, more successful generation of such windows (electrochromic windows). From the article by Joe Verrengia on physorg.com,

Insulated windows are made from multiple layers of glass. Typically the spaces between the panes are filled with a gas. Electrochromic windows are made with a very thin stack of dynamic materials deposited on the outside pane.

The dynamic portion consists of three layers: active and counter electrodes separated by an ion conductor layer. NREL researchers are experimenting with electrode layers made of nickel and tungsten oxides; the ions are lithium.

The window changes from clear to tinted when a small electric field is applied and the lithium ions move into the working electrode layers. The change can be triggered by sensors in an automated building management system, or by a flick of a switch. Electrochromic windows can block as much as 98 percent of the direct sunlight. Reversing the polarity of the applied voltage causes the ions to migrate back to their original layer, and the glass returns to clear.

It sounds exciting to someone like me who doesn’t handle the heat or air conditioning well. I just hope they can get the costs down as it’s about $1000 per square metre at this point.

While it’s not strictly speaking nanotechnology, a researcher (Jason Clark) at Purdue University is working on an insect robot, a microid.  From the news item on Nanowerk,

His [Clark's] concept, a sort of solid-state muscle for microid legs and mandibles, would allow the robot to nimbly traverse harsh environments such as sand or water. The concept appears to be the first to show such insectlike characteristics at the microscale, he said.
“The microids would be able to walk, run, jump, and pick up and move objects many times their own weight,” Clark said. “A microid can also do what no insect or other microrobot can do, which is continue walking if flipped on its back. Who knows, maybe flight is next.”
He also envisions the possibility of hordes of microids working in unison and communicating with each other to perform a complex task.
“You can’t underestimate the power of having thousands of microids working together, much like ant colonies,” he said.

Those last bits about flying and working in unison bring Michael Crichton’s 2002 nanotechnology novel, Prey, to mind. Crichton conceptualized a swarm that was intelligent, voracious, and almost unstoppable. As I recall, Crichton included aspects of insect behaviour, network theory, neuroscience, and self-assembling nanotechnology to describe his swarm. It caused a bit of a kerfuffle in the nanotech research community as scientists were concerned that it might set off a controversy similar to  ‘frankenfoods’ or GM (genetically modified) foods but nothing came of it at the time.

Techdirt had an interesting bit last week about open access to science research,

Via James Boyle, we’re pointed to an editorial that supposedly is all about improving access to research via open access policies for the public — and just so happens to be locked up behind a paywall itself. Apparently, the publisher doesn’t necessarily agree with the authors’ conclusions.

I did check out the link to find the publisher is the journal Science and they require a free registration or a subscription  for access to the editorial. Either Techdirt made a mistake or the editors at Science changed access to the editorial.

Combining insects with the journal, I found a news item on physorg.com about a theatre review published in Science,

Typically science doesn’t bed down with theatre, much less mate with artistic vigor, but the accord between the two is explored in the recent production Heuschrecken [The Locusts] developed by Stefan Kaegi of Rimini Protokoll. “And why not?” asks Arizona State University’s Manfred Laubichler and Gitta Honegger who review the production in the Jan. 29 issue of the journal Science.

The marriage of theatre and science is not new. The Greeks, starting with Aristotle embraced a more integrated relationship of the two. “But a divide came when we associated science with the brain and the arts with emotions,” Honegger says.

The news item goes on to discuss the particulars of the production such as a 60 square metre terrarium of 10,000 locusts, actors, scientists, video cameras, interwoven narratives, and locust music. I am quite inspired by it.

Coincidentally, Rimini Protokoll, the German theatre arts company mentioned in the news item, has a production here in Vancouver (as part of PUSH International Performing Arts Festival 2010 [Jan. 20 to Feb. 6]) which integrates video games and theatre. From the Canwest article by Peter Birnie,

Tim Carlson is a Vancouver playwright who was in Berlin in 2006 for a production of his play Omniscience. Carlson was so impressed by a Rimini Protokoll production of Friedrich Schiller’s Wallenstein trilogy in the German capital that, when he subsequently learned the PuSh International Performing Arts Festival was bringing Rimini Protokoll here, asked to work with them.

“I knew that they shape their shows for particular cities,” Carlson explains, “and they would want to do research here. I had them meet [former city councillor] Jim Green, they visited In-Site and had an architecture tour with [noted critic] Trevor Boddy. One thing that really captured their interest was the video-gaming industry in town, so that kind of turned the light on.”

Electronic artist Brady Marks was hired to find a way that 200 people could game together, and other electronic designers were brought on board to do the 3D modelling. As it does in other productions, Rimini Protokoll then hired local experts — not actors — to perform as themselves.

Marks is the electronic artist directing things, with animator Duff Armour as a game tester, former politician (and Railway Club owner) Bob Williams as a politician and traffic flagger Ellen Schultz as, well, the traffic flagger for the show. Carlson explains that Williams will be something of a political commentator when the audience holds its own presidential election.

You can phone 604.251.1363 to inquire about tickets for the production (Best Before) at the Vancouver East Cultural Centre.

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Posted in Vancouver, intellectual property, nanotechnology, performing arts, science communication | No Comments »

Self-cleaning windows almost here?; SAFENANO consortium and two new contracts; high school students in Albany, NY compete with nano projects; the state of science journalism in the UK

January 29th, 2010

According to a news item on Nanowerk, the Nanophase Technologies Corporation introduced a new nanotechnology-enabled window cleaning product at the International Window Cleaning Association Convention in Reno (Jan. 27 – 30, 2010). From the news item,

NanoUltra™ Super Hydrophilic Window Technology keeps windows cleaner longer than traditional window washing by providing an invisible protection to the surface of glass. The NanoUltra™ products impart a protection to the glass surface that is hydrophilic, allowing water to create a sheeting action that washes away dirt and grime. These revolutionary products also accelerate drying time, resulting in virtually spot and streak free windows.
This high-performance product works using a two-step application method. First, NanoUltra™ Super Hydrophilic Window Pretreatment, a nano cerium oxide based product, is applied to provide both a chemical and mechanical polishing mechanism that restores glass to ‘like new’ condition. Then the NanoUltra™ Super Hydrophilic Treatment product is applied to maintain the super hydrophilic surface property and give windows the ultimate shine.
The results can provide significant benefits to building owners and managers, professional window cleaners and window restoration specialists. In addition to potentially reducing liability and cleaning costs for the building owners, the NanoUltra™ technology offers up-sell and new business development opportunities for those servicing these patrons.

There’s more about the windows on Nanowerk here.

I’m happy to hear that I’m a step closer to self-cleaning windows although I wasn’t thinking of getting two new cleaning products. I want windows that are perpetually self-cleaning and not reliant on coatings that I have to reapply and which will likely leave streaks. This my problem with cleaning windows, i.e., streaks. Plus, I’m concerned about the birds. Won’t birds hurt themselves flying into shiny (“… ultimate shine …” ), clear windows?

SAFENANO, mentioned earlier this week (Jan. 27, 2010) has just announced two contracts which will provide information for the regulation of nanomaterials. From the news item on Nanowerk,

A consortium led by SAFENANO from the Institute of Occupational Medicine has been awarded two contracts by the Institute for Health and Consumer Protection of the European Commission’s Directorate General Joint Research Centre (JRC) concerning the development of specific advice on the assessment of nanomaterials under REACH. The first project, REACH-NanoInfo (also known as RIP-oN2), addresses the REACH information requirements on intrinsic properties of nanomaterials. The second project, REACH-NanoHazEx (RIP-oN3), addresses undertaking exposure assessments and conducting hazard and risk characterisation for nanomaterials within the REACH context.

If you want more information about the projects, go here.

I’ve been lazily following the nanotechnology scene in NY state since 2008 when IBM awarded $1.5B to the state for nanotechnology. From the announcement on Nanowerk,

The investment will go toward three separate and complementary components of a comprehensive project, supporting the nanotechnology chip computer activities of IBM: the expansion of IBM’s operations at the College of Nanoscale Science and Engineering at the University at Albany (Albany NanoTech), the creation of a new, advanced semiconductor packaging research and development center at a to be determined in Upstate New York, and the upgrading of IBM’s East Fishkill facility in Dutchess County.

Since then, I’ve noticed, with much interest, the University of Albany’s nanotechnology outreach efforts (latest posting about it here).  It seems they have also reached into high schools. According to the news item on Nanowerk,

A trio of high school seniors conducting hands-on nanotechnology research through internships at the College of Nanoscale Science and Engineering (“CNSE”) of the University at Albany have been selected as semifinalists in the 2010 Intel Science Talent Search (“Intel STS”), the nation’s most prestigious pre-college science competition. The three are among just 300 students chosen nationwide to compete for $1.25 million in awards, with 40 finalists scheduled to be announced on January 27.

I did track down the Jan.27.10 announcement of the 40 finalists but have not found a list of names. From the announcement,

New York again has the highest number [emphasis mine] of young innovators in this competition (11 this year). Following New York is California with eight finalists; Texas with three; Illinois, New Jersey and Oregon with two each; and Alabama, Connecticut, Indiana, Massachusetts, Maryland, Michigan, North Carolina, North Dakota, New Mexico, Oklahoma, Virginia and Wisconsin with one finalist each.

Unfortunately I don’t have a neat segue for my next bit which is about science journalism in the UK. According to the news item on physorg.com,

The study ‘Mapping the Field: Specialist science news journalism in the UK national media’ was led by Dr Andy Williams of the School of Journalism, Media and Cultural Studies. It was based on a survey of UK science, health, and environment news journalists, and 52 in-depth interviews with specialist reporters and senior editors in the national news media.

According to the research there has been an increase in the number of specialist science journalists in the UK national news media and there is a growing appetite for science news within newsrooms.

Also noted are the problems that all journalists are currently facing as newspapers and magazines struggle for survival.

If you want to read more about the study, you can also go here, where more information such as this is featured,

Whilst the extent of the influence of public relations varies widely between different news outlets, there is a general sense that PR has become an increasingly important and unavoidable presence over the last decade. A significant minority, 23%, believe science specialists rely on PR too much, and 25% of respondents said they now use more PR than previously. Many interviewees complain that a lot of their time is spent trying to convince news desks not to run poor-quality “bad science” stories they have seen on the news wires and/or in eye-catching press releases.

The struggle between journalists and PR practitioners is longstanding and worth discussing in a posting next week. Meanwhile, happy weekend.

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Posted in education, nanotechnology, regulation, risk, science communication | 1 Comment »

New US nanotechnology legislation for health and safety proposed; SAFENANO reviews 2009

January 27th, 2010

After finding this announcement on Azonano (or you can find it on Senator Pryor’s site here),

U.S. Senators Mark Pryor (D-AR) and Benjamin L. Cardin (D-MD) today introduced legislation to address potential health and safety risks about products that contain nanotechnology materials.

The Nanotechnology Safety Act of 2010 would establish a program within the Food and Drug Administration (FDA) to assess the health and safety implications of nanotechnology in everyday products and develop best practices for companies who employ nanotechnology. The legislation authorizes $25 million each year from 2011 through 2015.

I went looking for a comment or news release about it on the Project on Emerging Nanotechnologies website and was surprised to find nothing. In fact, I couldn’t find any commentary anwyhere in my very brief search this morning.

Meanwhile, SAFENANO (an initiative of the UK’s Institute of Occupational Medicine) has produced a review of  nanotechnology environment, health, and safety developments for 2009. They cover both developments in Europe and elsewhere. From the review,

In January, the International Standards Organisation ISO published a technical report ISO/TR 12885:2008 ” Health and safety practices in occupational settings relevant to nanotechnologies “. The report provides a general background the nanoparticle risk issues and describes in some detail current practices for risk assessment, exposure measurement and control which are appropriate for use with engineered nanoparticles. This report takes an encyclopaedic view but stops short of recommending which practices are appropriate for which materials under which circumstances, leading to disappointment for some users. This report is commercially available from ISO.
This was closely followed by a report from Canada published by Institut de recherche Robert-Sauvé en santé et en sécurité du travail (IRSST), in collaboration with CSST and  NanoQuébec The document ” Best Practices Guide to Synthetic Nanoparticle Risk Management, Report R599 “, covered much of the same ground as the ISO document but in less detail. This document also introduced the idea of using a “control banding” approach based on that described by Paik and recommends that this approach is used where there is insufficient information for a quantitative risk assessment.

It is a very interesting and useful review which you can read here.

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Monkey writes baseball story; Feynman symposium at USC; US government releases nanotechnology data sets; World Economic Forum (at Davos) interested in science

January 25th, 2010

To my horror, researchers at Northwestern University in the US have developed software (Stats Monkey) that will let you automatically generate a story about a baseball game by pressing a button. More specifically, the data from the game is input to a database which when activated can generate content based on the game’s statistics.

I knew this would happen when I interviewed some expert at Xerox about 4 or 5 years ago. He was happily burbling on about tagging words and being able to call information up into a database and generating text automatically. I noted that as a writer I found the concept disturbing. He claimed that it would never be used for standard writing but just for things which are repetitive. I guess he was thinking it could be used for instructions and such or perhaps he was just trying to placate me. Back to stats monkey: I find it interesting that the researchers don’t display any examples of the ‘writing’. If you are interested, you can check out the project here.

The discussion about the nanotechnology narrative continues. At the University of Southern California, they will be holding a 50th anniversary symposium about the publication (in 1960)  of Feynman’s 1959 talk, There’s plenty of room at the bottom, and its impact on nanotechnology. You can read more about the event here or you can see the programme for the symposium here.

Bravo to the US government as they are releasing information to the public in a bid for transparency. Dave Bruggeman at Pasco Phronesis notes that the major science agencies had not released data sets at the time of his posting. Still, the Office of Science and Technology Policy did make data available including data about the National Nanotechnology Initiative,

The National Nanotechnology Initiative (NNI) coordinates Federal nanotechnology research and development among 25 Federal agencies. The data presented here represent NNI investments by agency and program component area (PCA) from the Initiative’s founding in FY 2001 through FY 2010 (requested). These data have been available as part of the NNI’s annual supplements to the President’s Budget. But compared to earlier releases, the data as presented here are more accessible and readily available for analysis by users wishing to assess trends and examine investment allocations over the 10-year history of the NNI. The cumulative NNI investment of nearly $12 billion is advancing our understanding of the unique phenomena and processes that occur at the nanoscale and is helping leverage that knowledge to speed innovation in high-impact opportunity areas such as energy, security, and medicine.

You can get the data set here in either XLS or PDF formats.

It would be very difficult to get this type of information in Canada as we have no central hub for nanotechnology research funding. We do have the National Institute of Nanotechnology which is a National Research Council agency jointly funded by the province of Alberta and the federal government. Not all nanotechnology research is done under their auspices. There’s more than one government agency which funds nanotechnology research and there is no reporting mechanism that would allow us to easily find out how much funding or where it’s going.

The 2010 edition of the World Economic Forum meeting at Davos takes place January 27 – 31. It’s interesting to note that a meeting devoted to economic issues has sessions on science, social media, the arts, etc. which suggests a much broader view of economics than I’m usually exposed to. However, the session on ‘Entrepreneurial Science’ does ring a familiar note. From the session description,

According to the US National Academy of Sciences, only 0.1% of all funded basic science research results in a commercial venture.

How can the commercial viability of scientific research be improved?

I’m not sure how they derived the figure of 0.1%. Was the data international? Were they talking about government-funded research? Over what period of time? (It’s not uncommon for research to lie fallow for decades before conditions shift sufficiently to allow commercialization.) How do you determine the path from research to commercialization? e.g. Perhaps the work that resulted in a commercial application was based on 10 other studies that did not.

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