Emmanuel P. Giannelis Ph.D.
Dr. Giannelis's research interests include polymer nanocomposites, nanobiohybrids, nanoparticle fluids and flexible electronics. His group is internationally recognized as one of the leading groups in polymer nanocomposites. Giannelis is a member of several organizations and serves or has served on the editorial boards of Small, Chemistry of Materials and Macromolecules. He has co-organized half a dozen conferences or symposia on Nanocomposites and has delivered more than 370 Invited Talks and Seminars. He is the author or co-author of ~150 papers and 10 patents. He is a member of several professional organizations and a corresponding member of the European Academy of Sciences. He is a highly cited author in Materials Science (http://www.ISIHighlyCited.com) and he is listed as one of the top 25 cited authors on Nanotechnology by ISI. |
By this ResearcherRelated ContentRensselaer Draws ‘Roadmap’ for Designing with Graphene NanomaterialsScientists at Rensselaer Polytechnic Institute have produced a roadmap that can guide scientists on how to design and build graphene-based nanostructures that can be customized for applications in electronics, photovoltaics and other areas.
Microfluidics and Nanofluidics Handbook: Author InterviewNanoScienceWorks.org speaks with co-editor of the just-published Microfluidics and Nanofluidics Handbook. Prof. Sushanta Mitra, Director of the Micro and Nanoscale Transport Laboratory at the University of Alberta (Canada). His excellent oversight on this 2-volume masterwork’s 600 pages captures the cross-disciplinary breadth of micro- and nanofluidics, with expert contributions from more than two dozen esteemed researchers across biological sciences, chemistry, physics and engineering.
International Team Shows Stronger CNT Yarns for Nano MotorsYarns made from carbon nanotubes are the power behind a new generation of artificial muscles developed by an international team of researchers from Australia, Canada, Korea and the U.S. The work could lead to low-cost, simple-to-produce novel nanomotors for a wide range of applications, according to the researchers.
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CRC Press — 2010 NanoScience and CleanTech catalog
