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机译:采用超薄Au和Cu层的Al掺杂ZnO基透明导电电极的热稳定性提高
AST-Austrian Institute of Technology GmbH, Health and Environment Department, Nano Systems, Donau-City-str. 1, 1220 Vienna, Austria;
Research Institute for Technical Physics and Materials Science (MFA), Hungarian Academy of Sciences, Konkoly Thege Miklos str. 29-33, 1121 Budapest, Hungary;
Research Institute for Technical Physics and Materials Science (MFA), Hungarian Academy of Sciences, Konkoly Thege Miklos str. 29-33, 1121 Budapest, Hungary;
AST-Austrian Institute of Technology GmbH, Health and Environment Department, Nano Systems, Donau-City-str. 1, 1220 Vienna, Austria;
transparent conducting electrode; zinc oxide; ultra-thin metal; sputtering; thermal stability; solar cells; opto-electronics;
机译:超薄柔性Au-Ag-Au透明电极的研究
机译:AZO / ATO双层透明导电电极:热稳定性研究
机译:ITO / ATO双层透明电极,具有增强的光散射,热稳定性和导电性
机译:宠物上超薄透明和柔性Cu-Ag-Au三层膜的制造和稳定性研究
机译:研究用于IC互连应用的Cu上超薄Ag覆盖层的电阻率热系数的量子振荡。
机译:超薄Al2O3封装的高度柔性和透明的Ag纳米线电极:热环境和机械稳定性
机译:石墨烯掺杂:2D掺杂层,用于柔性透明导电石墨烯电极,具有低薄层电阻和高稳定性(ADV。电子。Matter。6/2018)