In-situ Patterning Organic Single Crystalline Nanoribbons on SiO2 Surface for Various Architectures and High Quality Transistors
Qingxin Tang Hongxiang Li Yabin Song Wei Xu Wenping Hu Lei Jiang Yunqi Liu Xiangke Wang and Daoben Zhu
A novel method was demonstrated to in-situ pattern organic single crystalline nanoribbons on SiO2 surface for various architectures. Organic field-effect transistors based on such patterned nanoribbons exhibited low threshold voltage and high carrier mobility. This in-situ patterning technique has overcome general disadvantages of handpicking process for the fabrication of organic single crystals devices and opens up a way to fabricate architectures and devices with very small crystals e.g. nanocrystals.
Adv. Mater. (2006 vol 18 3010-3014).
In situ patterned CuPc nanoribbons complicate nanostructures and high performance transistors.
