In-situ Patterning Organic Single Crystalline Nanoribbons on SiO2 Surface for Various Architectures and High Quality Transistors----Institute of Chemistry the Chinese Academy of Sciences

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In-situ Patterning Organic Single Crystalline Nanoribbons on SiO2 Surface for Various Architectures and High Quality Transistors

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Qingxin TangHongxiang LiYabin 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.


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