June 30, 2008
Patterning Organic Semiconductor Single Crystal Field-Effect Transistors :: Stanford/ IBM ARC/ UC Davis/ UC Berkeley
[ Research] Highlight from IRG III (Directed Nano-assemblies and Interfaces for Advanced Electronics)
Author(s): S. Liu1, A. Briseno,2 S.C.B. Mannsfeld,1 J. Locklin,1 W. You, H. Lee, Y. Xia,2 Z. Bao,1 A. Sharei, S. Liu,1 M.E. Roberts1
1Stanford University and 2University of Washington
Single-crystal organic field-effect transistors (OFETs) are ideal device structures for studying fundamental science associated with charge transport in organic materials and have demonstrated outstanding electrical characteristics. However, it remains a technical challenge to integrate single-crystal devices into practical electronic applications. A key difficulty is that organic single-crystal devices are usually fabricated one device at a time through manual selection and placing individual crystals. To overcome this difficulty, Bao et al. successfully developed two high-throughput approaches to pattern organic single crystal arrays. In the first method, organic crystals are patterned on electrode regions through solution (de)wetting on heterogeneously wettability-patterned substrates. This solution processing technique potentially has very low-cost. In the second approach, organic semiconductors are vapor-deposited on substrates using carbon nanotubes as templates. In both techniques, large arrays of single crystals OFETs with superior performance are successfully fabricated.