Plastic Electronics and Optoelectronics: Advances in Materials and Devices

  • Jenekhe Samson A. (Departments of Chemical Engineering and of Chemistry, University of Washington) ;
  • Kulkarni Abhishek P. (Departments of Chemical Engineering and of Chemistry, University of Washington) ;
  • Zhu Yan (Departments of Chemical Engineering and of Chemistry, University of Washington)
  • Published : 2006.10.13

Abstract

Recent work in our laboratory has focused on the molecular and supramolecular engineering of conjugated polymers and oligomers for device applications, including light emitting diodes for displays and lighting, photovoltaic cells, and thin film transistors. A central finding is that the supramolecular structure of conjugated polymers can have a dominant influence on their properties and the performance of devices. Some major results include: highly efficient RGB light-emitting diodes from polymers and oligomers; high mobility n-channel polymer field effect transistors; ambipolar thin film transistors from copolymer semiconductors; and self-assembly and ambipolar charge transport in polymer nanowires.

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