Infrared probe of charge dynamics in single crystal rubrene organic field-effect transistors
ORAL
Abstract
We report on infrared (IR) spectroscopy of charge dynamics in organic field-effect transistors based on single crystal rubrene. IR microscopy measurements show uniform charge injection over macroscopic length scales of several millimeters in these devices. IR measurements uncover anisotropic optical conductivities of these transistors in agreement with earlier transport studies. The field-induced electronic excitations in rubrene reveal optical constants with the Drude-like form and low effective masses. I will discuss several new aspects of the charge dynamics in organic molecular crystals uncovered by this work.
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Authors
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Zhiqiang Li
University of California, San Diego
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Vitaly Podzorov
Rutgers University
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Na Sai
University of California - San Diego, University of California, San Diego
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Michael Martin
Lawrence Berkeley National Laboratory
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Michael Gershenson
Rutgers University
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Massimiliano Di Ventra
University of California, San Diego, University of California - San Diego, UC San Diego
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Dmitri Basov
Department of Physics, University of California San Diego, University of California, San Diego, Physics Department, University of California - San Diego, UCSD