Tag Archives: Marti Otto

Science festivals in the US; nanoparticles and environmental health and safety report from ENRHES; new technique in molecular biology; PEN’s site remediation webcast commentary

I just came across a notice for the first ever USA Science and Engineering Festival to be held in Washington, DC, Oct. 10-24, 2010. From the Azonano news item,

Agilent Technologies Inc. (NYSE:A) today announced its support of the USA Science & Engineering Festival, the country’s first national science festival. The event will take place in Washington, D.C., in October 2010. The festival, expected to be a multi-cultural and multi-disciplinary celebration of science in the United States, will offer science and engineering organizations throughout the country the opportunity to present hands-on science activities to inspire the next generation of scientists and engineers. Festival organizers already have engaged more than 350 participants from the nation’s leading science and engineering organizations.

From what I’ve seen of their website, they are using the term multi-disciplinary in a fairly conservative sense, i. e., different science and engineering disciplines are being brought together. This contrasts with the approach used in the World Science Festival, being held in New York, June 2-6, 2010, where they mash together artists as well as scientists from many different disciplines.

Michael Berger at Nanowerk sputters a bit as he comments on the Engineered Nanoparticles Review of Health and Environmental Safety (ENRHES) report,

Before we take a look at the report’s findings, it’s quite remarkable that the authors feel compelled to start their introduction section with this sentence: “Nanotechnology is a sector of the material manufacturing industry that has already created a multibillion $US market, and is widely expected to grow to 1 trillion $US by 2015.” Firstly, a lot of people would argue with the narrow definition of nanotechnology as being a sector of the material manufacturing industry. Secondly, it appears that still no publicly funded report can afford to omit the meaningless and nonsensical reference to a ‘trillion dollar industry by 2015’. It really is astonishing how this claim gets regurgitated over and over again – even by serious scientists – without getting scrutinized (read “Debunking the trillion dollar nanotechnology market size hype”). It would be interesting to know if scientific authors, who otherwise operate in a fact-based world, just accept a number picked out of thin air by some consultants because it helps impress their funders; or if they deliberately use what they know is a fishy number because the politicians and bureaucrats who control the purses are easily fooled by sensational claims like these and keep the funding coming.

Sadly, picking a number out of thin air happens more often than we like to believe. A few years back I was reading a book about food and how it’s changing as we keep manipulating our food products to make them last longer on the shelf, etc. In one chapter of the book, the author chatted with an individual who helped to define high cholesterol. As he told the story, he and his colleagues (scientists all) got in a room and picked a number that was used to define a high cholesterol count. (I will try to find the title of that book, unfortunately the memory escapes me at the moment. ETA: Mar.4.10, the book is by Gina Mellet, Last chance to eat, 2004) I’ve heard variations of this business of picking a number that sounds good before.

As for the rest of the ENRHES report, Berger has this to say,

Thankfully, the rest of the report stands on solid ground.

I’m using those last two words, “solid ground” to eventually ease my way into a discussion about site remediation and the Project on Emerging Nanotechnologies’ (PEN) recent webcast. First, there’s a brief and related item on molecular biology.

Scientists at the University of Chicago are trying to develop a method for understanding how biological processes emerge from molecular interactions. From the news item (which includes an audio file of Andre Dinner, one of the scientists, discussing his work) on physorg.com,

Funded by a $1 million grant from the W.M. Keck Foundation, University of Chicago scientists are aiming to develop a reliable method for determining how biological processes emerge from molecular interactions. The method may permit them to “rewire” the regulatory circuitry of insulin-secreting pancreatic beta cells, which play a major role in type-2 diabetes.

A second goal: to control cell behavior and function more generally, which may ultimately culminate in other applications, including the bioremediation of environmental problems.

The four scientists [Aaron Dinner, Louis Philipson, Rustem Ismagilov, and Norbert Scherer] share an interest in the collective behavior of cells that emerges from a complex ensemble of atoms and molecules working in concert at different scales of time and space. “In a living system you have this hierarchy of coupled time and length scales,” Dinner said. “How is it that all of these different dynamics at one time and length scale get coupled to dynamics at another scale?”

In other words, how does life begin? I know that’s not the question they’re asking but this work has to lead in that direction and I imagine the synthetic biology people are watching with much interest.

In the more immediate future, this work in molecular biology may lead to better bioremediation, which was the topic at hand on the Project on Emerging Nanotechnologies’ recent (Feb.4.10) webcast.From their website (you can click to view the webcast [approx. 54 mins.] from here),

A new review article appearing in Environmental Health Perspectives (EHP) co-authored by Dr. Todd Kuiken, research associate for the Project on Emerging Nanotechnologies (PEN), Dr. Barbara Karn, Office of Research and Development, U.S. Environmental Protection Agency and Marti Otto, Office of Superfund Remediation and Technology Innovation, U.S. Environmental Protection Agency focuses on the use of nanomaterials for environmental cleanup. It provides an overview of current practices; research findings; societal issues; potential environment, health, and safety implications; and possible future directions for nanoremediation. The authors conclude that the technology could be an effective and economically viable alternative for some current site cleanup practices, but potential risks remain poorly understood.

There is an interactive map of remediation sites available here and, if you scroll down to the bottom of the page, you’ll find a link to the review article or you can go here.

I found the information interesting although I was not the intended audience. This was focused primarily on people who are involved in site remediation and/or are from the US. The short story is that more research needs to be done and there have been some very promising results. The use of nanoscale zero-valent iron (nZVI) nanoparticles was the main topic of discussion. It allows for ‘in situ’ site remediation, in other words, you don’t need to move soil and/or pump water through some treatment process. It’s not appropriate for all sites. It can be faster than the current site remediation treatments and it’s cheaper. There was no mention of any problems or hazards using nZVI but there hasn’t been much research either. The technique is now being used in seven different countries (including Canada with one in Ontario and one in Quebec). If I understand it rightly, there is no requirement to report nanotechnology-enabled site remediation so these numbers are based on self-reports. From the article in Environment Health Perspectives,

The number of actual applications of nZVI is increasing rapidly. Only a fraction of the projects has been reported, and new projects show up regularly. Figure 2 and Supplemental Material, Table 2 (doi:10.1289/ehp.0900793.S1) describe 44 sites where nanoremediation methods have been tested for site remediation.

I think that’s it for today, tomorrow some news from NISENet (Nanoscale Informal Science Education Network).

Site remediation and nano materials; perspectives on risk assessment; Leonardo’s call for nano and art; a new nano art/science book

The Project on Emerging Nanotechnologies (PEN) is holding an event on site remediation on Feb. 4, 2010 (12:30 pm to 1:30 pm EST). From the news release,

A new review article appearing in Environmental Health Perspectives (EHP) co-authored by Dr. Todd Kuiken, Research Associate for the Project on Emerging Nanotechnologies (PEN), Dr. Barbara Karn, Office of Research and Development, U.S. Environmental Protection Agency and Marti Otto, Office of Superfund Remediation and Technology Innovation, U.S. Environmental Protection Agency focuses on the use of nanomaterials for environmental cleanup. It provides an overview of current practices; research findings; societal issues; potential environment, health, and safety implications; and possible future directions for nanoremediation. The authors conclude that the technology could be an effective and economically viable alternative for some current site cleanup practices, but potential risks remain poorly understood.

PEN’s Contaminated Site Remediation: Are Nanomaterials the Answer? features the EHN article’s authors  Kulken, Karn, and Otto on a panel with David Rejeski, PEN’s executive director moderating. PEN also has a map detailing almost 60 sites (mostly in the US, 2  in Canada, 4 in Europe, and 1 in Taiwan) where nanomaterials are being used for remediation.  More from the news release,

According to Dr. Kuiken, “Despite the potentially high performance and low cost of nanoremediation, more research is needed to understand and prevent any potential adverse environmental impacts, particularly studies on full-scale ecosystem-wide impacts. To date, little research has been done.”

In its 2004 report Nanoscience and nanotechnologies: opportunities and uncertainties, the British Royal Society and Royal Academy of Engineering recommended that the use of free manufactured nanoparticles be prohibited for environmental applications such as remediation until further research on potential risks and benefits had been conducted. The European Commission’s Scientific Committee on Emerging and Newly Identified Health Risks (SCENIHR) called for further risk research in 2005 while acknowledging environmental remediation technology as one of nanotechnology’s potential benefits.

If you wish to attend in person (i.e. you are in Washington, DC), you are asked to RSVP here (they provide a light lunch starting at 12 pm) or you can watch the webcast (no RSVP necessary and I will put up a link to the webcast closer to the date).

On the topic of risk, Michael Berger has written an in depth piece about a recently published article, Redefining research risk priorities for nanomaterials, in the Journal of Nanoparticle Research. From Berger’s piece,

While research in quantitative risk characterization of nanomaterials is crucially important, and no one advocates abandoning this approach, scientists and policy makers must face the reality that many of these knowledge gaps cannot be expected to be closed for many years to come – and decision making will need to continue under conditions of uncertainty. At the same time, current chemical-based research efforts are mainly directed at establishing toxicological and ecotoxicological and exposure data for nanomaterials, with comparatively little research undertaken on the tools or approaches that may facilitate near-term decisions.

In other words, there’s a big lag between developing new products using nanomaterials and the research needed to determine the health and environmental risks associated both with the production and use of these new materials. The precautionary principle suggests that we not produce or adopt these products until we are certain about risks and how to ameliorate and/or eliminate them. That’s an impossible position as we can never anticipate with any certainty what will happen when something is released to the general public or into the environment at large.  From Berger’s piece,

In their article, [Khara Deanna] Grieger [PhD student at Technical University of Denmark (DTU)], Anders Baun, who heads DTU’s Department of Environmental Engineering, and Richard Owens from the Policy Studies Institute in the UK, argue that there has not yet been a significant amount of attention dedicated to the field of timely and informed decision making for near term decisions. “We see this as the central issue for the responsible emergence of nanotechnologies” says Grieger.

Getting back to site remediation using nanomaterials, since it’s already in use as per the map and the authors state that there hasn’t been enough research into risks, do we pull back and adopt the precautionary principle or do we proceed as intelligently as possible in an area where uncertainty rules? That’s a question I will continue to explore as I get my hands on more information.

On a completely different nano front, the Leonardo magazine has issued a call for papers on nano and art,

2011 is the International Year of Chemistry! To celebrate Leonardo is seeking to publish papers and artworks on the intersections of chemistry,
nanotechnology and art for our on-going special section on nanotechnology and the arts. Since its inception nanotech/science has been intimately connected to chemistry; fullerenes, nanoputians, molecular machines, nano-inorganics and self-assembling molecular systems all spring from the minds and labs of chemists, biochemists and chemical engineers. If you’re a nano-oriented chemist who is serious about art, an artist working on the molecular level, or a chemical educator exploring the mysteries of nano through the arts we are especially seeking submissions from you.

You can send proposals, queries, and/or manuscripts to the Leonardo editorial office: leonardomanuscripts@gmail.com. You can read more about the call for papers here at Leblogducorps or you can go here to the Leonardo online journal.

Meanwhile, Andrew Maynard at 2020 Science is posting about a new book which integrates art work in an attempt to explain nanotechnology without ever mentioning it. From Andrew’s posting,

How do you write a book about something few people have heard off, and less seem interested in?  The answer, it seems, is to write about something else.

Felice Frankel and George Whitesides have clearly taken this lesson to heart. Judged by the cover alone, their new book “No Small Matter:  Science at the Nanoscale” is all about science in the Twilight zone of the nanoscale

– where stuff doesn’t behave in the way intuition says it should.

Drat! I can’t make the indent go away. At any rate, do visit 2020 as Andrew to read more from this posting and at least one other where he has gotten permission to excerpt parts of the book (text and images).