摘要
透明柔性导电的SnO_2:Sb单晶纳米线可以作为软塑料上F_(16)CuPc单晶纳米器件的电极使用,这包含了有机场效应晶体管的各向异性传输,可移动电极以及p-n节光伏器件。SnO_2:Sb纳米线与F_(16)CuPc纳米线有着良好的能级匹配和柔性接触,使得SnO_2:Sb纳米线具有微纳电子和光电器件等多功能应用,并且具有良好的器件性能。再结合尺寸优势,使得导电的SnO_2:Sb单晶纳米线有利于对高度有序的有机半导体本征性能的理解;有利于有机微纳电路的最优化及小型化;有利于新一代有机柔性微纳器件的发展。
Conductive, transparent, and flexible SnO_2:Sb single-crystal nanowires are shown as electrodes for F_(16)CuPc single-crystal nanowire devices on flexible plastic, which includes anisotropic-transport OFETs, electrode-movable OFETs, and p–n junction photovoltaic devices. The SnO_2:Sb nanowires provide a good energy level match and excellent soft contact with F_(16)CuPc nanowires, leading to multifaceted applications of the SnO_2:Sb nanowire in nanowire electronics and optoelectronics, as well as high device performance. Combined with their good size compatibility, these results show that the conductive SnO_2:Sb single-crystal nanowire opens a window into the fundamental understanding of the intrinsic properties of highly ordered organic semiconductors, optimization and miniaturization of organic nanocircuits, and development of new-generation flexible organic nanodevices.
引文
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