GT Courtesy Listing
Title: |
Exciton Management in Organic Solar Cells |
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Speaker: |
Dr. Mark E. Thompson |
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Affiliation: |
Chemistry and Materials Science, University of Southern California |
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When: |
Friday, October 7, 2011 at 4:00:00 PM |
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Where: |
MoSE Building, Room G011 |
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Host: |
Jason Martin | |
Abstract
We have taken a materials intensive approach to developing an understanding of the mechanism of photocurrent and photovoltage generation in organic photovoltaic devices (OPVs). We have explored the use of metal porphyrin complexes as donor materials in OPVs. The complexes we have chosen have high nonplanar structures in the ground state and excited state. Using a ring fusion process we have generated mono-porphyrin complexes that absorb light efficiently to ca. 1000 nm. The exciton is a critical part of each of these processes, and being able to control the location, lifetime and energy of the exciton is essential to achieving high efficiency. We have investigated methods for tuning exciton energies and controlling their migration paths, both intramolecularly and within a thin film. I will discuss our most recent work with porphyrinic materials for OPVs. This involves a careful materials design study that leads to both low energy absorption (into the nearIR) and the use of substituted porphyrins to efficiently harvest photons through the entire visible spectrum. To that end we have used transient absorption spectroscopy and measured the rates of singlet and triplet energy transfers between organic dyes (BODIPY and tetracenes). Both intra- and inter-molecular energy transfers take place on the picoseconds time scale. Thus, the systems are fully equilibrated into the lowest energy triplet state(s) before nonradiative decay. Using this approach we can efficiently harvest energy across the visible and into the NIR. Both long wavelength and broad absorption are achieved with high extinction (> 105 cm-1). I will discuss the photophysical properties of these materials and their use in OPVs. |
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Biography Dr. Mark E. Thompson is Professor of Chemistry and Materials Science at the University of Southern California. He received his B.S. degree in Chemistry in 1980 (U.C. Berkeley) and his Ph.D. in chemistry in 1985 (California Institute of Technology). He spent 2 years as a S.E.R.C. fellow in the Inorganic Chemistry laboratory at Oxford University. Prof. Thompson took a position in the chemistry department at Princeton University in 1987, as an assistant professor. In 1995 he moved his research team to the University of Southern California, where he is currently a Professor of Chemistry. He currently has over 250 peer reviewed publications and over 100 issued US patents to his credit. His research interests involve the optical and optoelectronic properties of molecular materials and devices, particularly organic LEDs and solar cells, as well as nanoscale materials, catalysis and biosensors. |
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Notes |
Reception will follow. |
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