Tag Archives: NanoBusiness Alliance

When is a nano-enabled product not nano-enabled?

Dietram Scheufele over at nanopublic has highlighted some research that David Berube (author of Nanohype—book and blog and professor at the University of North Carolina) and colleagues have published in Nanotechnology Law & Business (research article is behind a paywall). From Dietram’s July 3, 2010 blog posting (I’m unable to link to the specific post, so please scroll to or hunt for the date) about Berube’s research into the Project on Emerging Nanotechnologies’ (PEN) Consumer Products Inventory (CPI),

The article takes a critical look at the Project on Emerging Nanotechnologies (PEN) consumer product inventory. The inventory has been used widely as a gauge of the number and types of nano consumer products currently on the U.S. market.

… [the authors concluded]

“that the CPI is not wholly reliable, and does not have sufficient validity to justify its prominence as evidence for claims associated with the pervasiveness of nanotechnology on the U.S. and global markets. In addition, we caution researchers to approach the CPI with care and due consideration because using the CPI as a rhetorical flourish to amplify concerns about market intrusions seems unjustified.”

In other words, use the CPI with care. Unfortunately, I haven’t been able to read Berube’s paper but I did go to the Project on Emerging Nanotechnologies website and looked at the criteria for inclusion in the CPI where PEN clearly states the inventory’s limitations,

Selection of products

Most products in this inventory satisfy three criteria:

1. They can be readily purchased by consumers, and

2. They are identified as nano-based by the manufacturer OR another source, and

3. The nano-based claims for the product appear reasonable.

In every instance, we have tried to identify specific products from specific producers. However, since nanotechnology has broad applications in a variety of fields, we have included a number of “generic” products that you can find in many places on the market such as computer processor chips. These are clearly labeled in the inventory. In some cases, companies offer several similar nanotechnology-based products and product lines. To reduce redundancy, we have just included a few samples in this inventory and hope that they will provide an initial baseline for understanding how nanotechnology is being commercialized.

There are probably some products in the inventory which producers allege are “nano,” but which may not be. We have made no attempt to verify manufacturer claims about the use of nanotechnology in these products, nor have we conducted any independent testing of the products. We have tried to avoid including products that clearly do not use nanotechnology, but some have undoubtedly slipped through.

Finally, some products are marked “Archive” to indicate that their availability can no longer be ascertained. When these products were added to the inventory we included live links, but since then the company may have discontinued the product, gone out of business, removed a self-identifying “nano” claim or simply changed their web address. In these instances we have attempted to locate a cached version of the product website using The Internet Archive.

I imagine that despite PEN’s clearly statements some folks have referenced it carelessly hence the concern about using it as hype from Berube and his colleagues.

The bit about manufacturers removing the ‘nano’ claim hit home since I did some research into washers that use nanosilver. A friend was disturbed by a recent article about them and I remembered that the US EPA (Environmental Protection Agency) had made a special designation for these types of washers. As it turns out, I got it 1/2 right. From the December 4, 2006 article by Susan Morissey in Chemical and Engineering News,

Silver—claimed to be nanoparticles—employed to kill bacteria in washing machines will now be regulated as a pesticide, EPA announced late last month. Currently, washers that generate silver ions are classified as devices and are not required to be registered with EPA.

The products at issue are Samsung washing machines that are advertised as using silver ions to kill 99.9% of odor-causing bacteria. This technology, called SilverCare, generates ions by applying current to two silver plates housed next to the machine’s tub. The ions are then directed into the tub during the wash cycle.

“EPA has determined that the Samsung silver ion-generating washing machine is subject to registration requirements under the Federal Insecticide, Fungicide & Rodenticide Act,” according to an EPA statement. The agency decided to change the classification of the washer because it releases silver ions into the laundry “for the purpose of killing microbial pests,” the statement explains.

For its part, Samsung has pledged to comply with the change of policy. “Samsung has and will continue to work with EPA and state regulators regarding regulation of the silver washing machine,” the company says.

Several groups concerned about the environmental impact of nanoparticles of silver had asked EPA to reevaluate the way products containing such materials are regulated. For example, environmental group Natural Resources Defense Council (NRDC) noted in a letter to EPA that there are currently more than 40 products on the market in addition to Samsung’s washing machine that have made or implied claims of using nanoparticles of silver to kill bacteria.

NRDC praised EPA for taking what it called a “step in the right direction” by reclassifying nanosilver generated in a washer as a pesticide. The group also said this revised policy should lead to EPA reassessing other products that use nanoparticles of silver for their biocidal qualities.

A pesticide is not exactly a special designation but it certainly is unique as applied to clothes washers. The EPA announcement was made around the US Thanksgiving period (late November) according to a December 6, 2006 article by Scott E. Rickert in Industry Week. From Rickert’s article,

First, let’s backtrack and get the facts behind the headline. The trigger for the EPA decision was a Samsung washing machine. The “SilverWash” contains silver nanoparticles and claims that it helps to kill bacteria in clothes by releasing silver ions into the water during the wash.

Various U.S water authorities became concerned that discharged nanosilver might accumulate in the water system, particularly in wastewater treatment plants where beneficial bacteria are used to purify water of its toxins. This opinion means that nanosilver could be viewed as an environmental pesticide, requiring the product to be registered and tested under the Federal Insecticide, Fungicide and Rodenticide Act. In the words of EPA spokesperson Jennifer Wood, “The release of silver ions in the washing machines is a pesticide, because it is a substance released into the laundry for the purpose of killing pests.”

So what does this really mean to nano-industry? Specifically, we’re not sure yet. It will take several months for the final rules to be detailed in the Federal Register. But some of the early responses have me scratching my head.

One company has removed any reference to nanosilver from their marketing information for antimicrobial devices. Apparently, in the short run, that excludes them from any ruling. As Jim Jones, director of the EPA’s Office of Pesticide Programs, said, “Unless you’re making a claim to kill a pest, you’re not a pesticide.”

This is not a simple ‘good guy vs. bad guy’ situation. Defining nanotechnology, nanoparticles, nanomaterials, etc. is a work in progress which makes attempts to regulate products and production in this area an even earlier work in progress. This situation is not confined to the US or to Canada. In fact, it doesn’t seem to be confined to any one country, which makes the situation applicable globally.

There is work being done and changes instituted, for example, the EPA has announced (from the PEN website),

At an April 29 presentation to the Pesticide Programs Dialogue Committee in Washington, D.C. EPA’s William Jordan announced a new working definition of nanomaterials as “an ingredient that contains particles that have been intentionally produced to have at least one dimension that measures between approximately 1 and 100 nanometers.” In addition EPA is preparing a Federal Register Announcement due out in June which announces a new interpretation of FIFRA/regulations and proposes a new policy stating that the presence of a nanoscale material in a pesticide product is reportable under FIFRA section 6(a)(2) and applies to already registered products as well as products pending registration.

As well, statements from the NanoBusiness Alliance suggest (in a previous posting on this blog) that there is some support within the business community for thoughtful regulation. As to what thoughtful means in this context, I think that’s something we, as a a society, need to work out.

Nanomaterials and health and safety position statement from the NanoBusiness Alliance

I’m not entirely sure how this works but the NanoBusiness Alliance (US-based) has distributed a position statement which focuses on Nanomaterials Product Sustainability while invoking the ‘Holy Trinity’ of environment, health, and safety (EHS). From the news item on Nanowerk,

As an enabling technology applicable to diverse fields, including alternative energy, medicine, and electronics, among many others, nanotechnology offers tremendous value to society. As with any emerging technology, nanotechnology and nanoscale materials must be managed in a responsible way to identify and minimize any potential adverse effect on human health or the environment. The Alliance is committed to fostering the responsible and sustainable development of nanotechnology, to working with governmental and related nanotechnology stakeholders to develop appropriate scientific testing tools, methodologies and data to characterize nanoscale materials, and to developing informed, science-based governance policies, laws, standards, practices, and regulations pertinent to nanoscale materials.

I was hoping to get more information on the Alliance’s website but I can’t find the news release with the position statement let alone more details about it.

Interview with Dr. David T. Cramb; venture capital and nano and microsystems; NanoBusiness Alliance roundtable; science and artists

March 3, 2010, I posted about Dr. David Cramb, director of the Nanoscience Program and professor in the department of Chemistry at the University of Calgary, and his colleagues. They had just published a paper (Measuring properties of nanoparticles in embryonic blood vessels: Towards a physicochemical basis for nanotoxicity)  in Chemical Physics Letters about a new methodology they are developing to measure the impact of nanoparticles  on human health and the environment. Dr. Cramb very kindly answered some email questions about the study (abstract is here, article is behind a paywall).

  • Is this work on nanoparticles and blood vessels part of a larger project? i.e. Is this an OECD project; is there going to be an international report; is this part of a cross-Canada investigation into nanoparticles and their impact on health?

This is a collaborative project, but the reports that we generate will be available to Environment Canada and Health Canada. We have collaborators from both agencies.

  • In reading the abstract (for the article, which is behind a paywall and probably too technical for me), it seemed to me that this is a preliminary study which sets the stage for a nanoparticle study. In fact, you were studying quantum dots (CdSe/ZnS) and establishing that a particular kind of spectroscopy could be used to track the accumulation of nanoparticles in chicken embryos. Is this correct? And if so, why not study the nanoparticles directly?

A quantum dot is a type of nanoparticle.  So, in principle, we can apply our techniques to any other nanoparticle of interest.

  • What does CdSe/ZnS stand for?

cadmium selenide (in the centre of the nanoparticle) / zinc sulfide (coating on the outside)

  • What kind or kinds of nanoparticles are going to be used for the study moving forward from this one?

Similar but different sizes and surface chemistries. We want to understand what properties affect uptake into tissues and distribution in organs. That way we can predict risk.

  • From reading the abstract (and thanks to the person who wrote the explanation), I have a pretty good idea why chicken embryos are being used. [I’ll insert the description from the abstract here with attributions.] In another context, I have come across the notion that chickens in the US at least, I don’t know about Canada, have been so thoroughly compromised genetically that using their embryos for research is problematic. (brief note: I attended a lecture by Susan Squier, a noted academic, who had a respondent [a US scientist] claiming he moved to the UK because he didn’t feel confident experimenting with US chicken embryos.) What are your thoughts on this?

We aren’t doing genetic studies, so knowing the lineage of the embryos isn’t critical for us.

  • Is there anything else you’d like to add?

Nanoparticles are being used in many areas from cosmetics to pharmaceutical to energy. As yet, there is no evidence that the nanoscale formulation adds any risk to these applications. We in nanoscience believe that we must maintain due diligence to asess future risk and to make nanotechnology as green as possible.

Thank you Dr. Cramb for taking the time to explain your work.

On a completely other front, Harris & Harris Group a venture capital group that invests in nanotechnology and microsystems is holding a fourth quarter conference call on Friday, March 12, 2010.  From the Harris & Harris Group website,

With over 30 nanotechnology companies in our portfolio, Harris & Harris Group, Inc., is one of the most active nanotechnology investors in the world. We have funded companies developing nanoscale-enabled solutions in solid state lighting, emerging memory devices, printable electronics, photovoltaics, battery technologies, thermal and power management, next-generation semiconductor devices and equipment, quantum computing, as well as in various life-science applications of nano-structured materials.

We consider a company to fit our investment thesis if the company employs, intends to employ or enables technology that we consider to be at the microscale, nanoscale or smaller and if the employment of that technology is material to its business plan. We are interested in funding entrepreneurs with energy, vision and the desire to build great companies.

From the news release on CNN announcing the conference call,

The management of Harris & Harris Group, Inc. (Nasdaq:TINY) will hold a conference call to discuss the Company’s financial results for its fiscal fourth quarter and full year 2009, to update shareholders and analysts on our business and to answer questions, on Friday, March 19, 2010, at 10:00 a.m. Eastern Time.

For details about accessing the webcast, please follow the link to the news release.

Still on business-related nanotechnology news, the NanoBusiness Alliance will be holding its annual Washington, DC roundtable, March 15-17, 2010. From the news item on Nanowerk,

The NanoBusiness Alliance, the world’s leading nanotechnology trade association, today announced that it will convene numerous nanotechnology industry executives in Washington, D.C. from March 15 – 17 for its 9th annual “Washington DC Roundtable”. As in past years, NanoBusiness Alliance members will participate in three days of high-level meetings with Members of Congress, Administration officials, and key staff.

If you are interested in the NanoBusiness Alliance, their homepage is here.

For today’s almost final entry, I’m going back to science and its relationship to art, a topic alluded to just prior to my introduction of the Cheryl Geisler (dean of the Faculty of Communication, Art and Technology at Simon Fraser University, Canada) interview. At the time I noted that art, science and technology are interconnected to justify my inclusion of art topics in this blog and, specifically, my inclusion of the Geisler interview. I just read an entry by David Bruggeman (Pasco Phronesis blog) which describes the impact that art can have. From the post,

… McCall’s art is certainly an influence on why I’m involved with science and technology today. You may not know it, but it’s likely you’ve seen his work in connection with reports on space, or in works of science fiction for the page or the screen …

McCall is Robert McCall, an important space artist who recently died. His website is here and Bruggeman provides other links to McCall’s works.

This bit has nothing to do with anything other than I’ve always thought thought Emma Peel was Steed’s (The Avengers) best partner and found this tribute (clips of Diana Rigg as Peel set to The Kinks) on Raincoaster here. (Scroll down the page.)