field-effect devices / metal wires / soft applications / chemical solutions / mechanical energy damping / metal particles / gas flow stability / metal thin films / silicon technology / metal oxides / soft electronics research / recent emerging technologies / chemical doping treatments / chemical doping approach / rigid chips / ubiquitous chemical element / soft electronics / chemical vapor deposition / metal electrodes / analogue applications / plasma-enhanced chemical vapor deposition / electronic device applications / electrode applications / realistic applications / rigid metal wires / charge carrier mobility / dry printing / electrical applications / high-speed electronics / carrier mobility / energy generators / energy / carrier type / stretchable devices / human bio-devices / integrated circuitry applications / laminar gas flow / electronics applications / chemical properties / rigid silicon electronics / stretchable electronics / ink-jet printing / metal foils / gas temperature / Electronic devices / consumer applications / electronics / metal etching process / chemical stability / chemical molecular assembly method / e-beam / graphene devices / random network / large-scale flexible electronics / feasible soft electronics / metal films / metal substrates / miniaturized silicon technology / random networks / /
Movie
Touch / ITO / Transparent / /
NaturalFeature
Active channel / /
Organization
Center for Integrated Nanostructure Physics / Department of Energy Science / Department of Physics / Institute for Basic Science / American Chemical Society / Sungkyunkwan University / /
Person
SWCNT FET / Chae Nano Convergence / Sang Hoon / Lee Nano Convergence / /
Product
sodium chloride / /
Technology
semiconductor / conventional Si technology / CVD system / Semiconducting Si technology / miniaturized silicon technology / microwave / lithography / Young Hee Lee1 / 2* Abstract Although silicon technology / integrated circuits / chemical vapor deposition / laser / semiconductors / silicon technology / dielectric / CVD / /