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Book cover of Nanoengineered nanofibrous materials by Yury Georgievich Gogotsi

Nanoengineered nanofibrous materials

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50

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English

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Technology

Pages:

534

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Book Description

The combination of conductive polymer technology with the ability to produce nanofibres will facilitate major new developments in biotechnology and information technology, benefiting such areas as scaffolds for tissue engineering and drug delivery systems; wires, capacitors, transistors and diodes; sensor technology; biohazard protection; and energy transport, conversion and storage. The work on nanofibrous materials presented here is designed, first of all, to instruct scientists in the most advanced methods for the formation of nanofibres and nanotubes. The second section covers the physics and chemistry of nanofibres, while the third deals with computer simulation and modelling. The applications described in section 4 include biomedical applications, nanotube-based devices, electronic applications of nanotubes and nanofibres, nanofluidics, and composites. Finally, the fifth section discusses recent developments in nanomaterials, nanoparticles and nanostructures.
Author portrait of Yury Georgievich Gogotsi

Yury Georgievich Gogotsi

Yury Georgievich Gogotsi (born December 16, 1961, Kyiv, Ukrainian SSR) is a Ukrainian scientist in the field of material chemistry, professor at Drexel University, Philadelphia, PA since the year 2000 in the fields of Materials Science and Engineering and Nanotechnology. Distinguished University and Trustee Chair professor of materials science at Drexel University — director of the A.J. Drexel Nanotechnology Institute (since 2014 - A.J. Drexel Nanomaterials Institute). Gogotsi works on synthesis and surface modification of inorganic nanomaterials, such as nanodiamond, carbide-derived carbons, nanotubes, and two-dimensional carbides and nitrides (MXenes). His group also explores energy related and other applications of materials discovered and developed in Gogotsi Lab. His work on carbon and carbide nanomaterials with tunable structure and porosity had a major impact on the field of capacitive energy storage.
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