Open AccessNanoparticle modifications of photodefined nanostructures for energy applications.
Author(s) -
Ronen Polsky,
Xiaoyin Xiao,
David Bruce Burckel,
Susan M. Brozik,
Cody M. Washburn,
David R. Wheeler
Publication year - 2011
Publication title -
osti oai (u.s. department of energy office of scientific and technical information)
Language(s) - English
Resource type - Reports
DOI - 10.2172/1030398
Subject(s) - nanotechnology , materials science , photoresist , nanoparticle , fabrication , nanostructure , battery (electricity) , polymer , electrode , composite material , chemistry , medicine , power (physics) , alternative medicine , physics , pathology , layer (electronics) , quantum mechanics
The advancement of materials technology towards the development of novel 3D nanostructures for energy applications has been a long-standing challenge. The purpose of this project was to explore photolithographically defineable pyrolyzed photoresist carbon films for possible energy applications. The key attributes that we explored were as follows: (1) Photo-interferometric fabrication methods to produce highly porous (meso, micro, and nano) 3-D electrode structures, and (2) conducting polymer and nanoparticle-modification strategies on these structures to provide enhanced catalytic capabilities and increase conductivity. The resulting electrodes were then explored for specific applications towards possible use in battery and energy platforms
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