Organic nanowires self-assembled from small-molecule semiconductors and conducting polymers have attracted an enormous amount of interest for use in organic field-effect transistors. This new class of materials offers solution processability, the potential for elucidating transport mechanisms and structure-property relationships, and the realization of high-performance transistors that rival the performance of amorphous Si. We discuss the self-assembly of one-dimensional, single-crystalline organic nanowires, show the structures of commonly employed organic semiconductors, and review some of the advances in this field.
Vivek Subramanian, Jean Mj Frechet, P.C. Chang, Alejandro de la Fuente Vornbrock, D. C. Huang, J. B. Lee, Brian Mattis, Steven Molesa, Amanda R. Murphy, David Redinger, Steven K. Volkman
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