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Contact: Michael Bernstein
m_bernstein@acs.org
202-872-6042
American Chemical Society

New method for recovering pricey nanoparticles

Scientists are reporting first use of a new method that may make it easier for manufacturers to recover, recycle, and reuse nanoparticles, some of which ounce for ounce can be more precious than gold. The method, which offers a solution to a nagging problem, could speed application of nanotechnology in new generations of solar cells, flexible electronic displays, and other products, the scientists suggest. Their study appears in ACS' Langmuir, a bi-weekly journal.

Julian Eastoe and colleagues point out that scientists are seeking better ways to recover and reuse nanoparticles, which are barely 1/50,000th the width of a human hair. Without that technology, manufacturing processes that take advantage of nanoparticles' unusual properties might be prohibitively expensive. Recovering and recycling nanoparticles is especially difficult because they tend to form complex, hard-to-separate mixtures with other substances.

Eastoe and colleagues describe the development of a special type of microemulsion a mixture of oil and water (mayonnaise is an edible emulsion) that may solve this problem. In laboratory tests using cadmium and zinc nanoparticles, they showed how the oil and water in the microemulsion separated into two layers when heated. One layer contained nanoparticles that could be recovered and the other contained none. The separation process is reversible and the recovered particles retain their shape and chemical properties, which is crucial for their reuse, the scientists note.

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ARTICLE FOR IMMEDIATE RELEASE
"Recovery of Nanoparticles Made Easy"

DOWNLOAD FULL TEXT ARTICLE
http://pubs.acs.org/stoken/presspac/presspac/full/10.1021/la100111b

CONTACT:
Julian Eastoe, Ph.D.
School of Chemistry
University of Bristol
Bristol, United Kingdom
Phone: 44 (0)117 928 9180
Fax: 44 (0)117 925 1295
Email: julian.eastoe@bristol.ac.uk



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