Energy Migration in Organic Thin Films—From Excitons to Polarons
2016-04
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Energy Migration in Organic Thin Films—From Excitons to Polarons
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2016-04
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The rise of organic photovoltaic devices (OPVs) and organic light-emitting devices has generated interest in the physics governing exciton and polaron dynamics in thin films. Energy transfer has been well studied in dilute solutions, but there are emergent properties in thin films and greater complications due to complex morphologies which must be better understood. Despite the intense interest in energy transport in thin films, experimental limitations have slowed discoveries. Here, a new perspective of OPV operation is presented where photovoltage, instead of photocurrent, plays the fundamental role. By exploiting this new vantage point the first method of measuring the diffusion length (LD) of dark (non-luminescent) excitons is developed, a novel photodetector is invented, and the ability to watch exciton arrival, in real-time, at the donor-acceptor heterojunction is presented. Using an enhanced understanding of exciton migration in thin films, paradigms for enhancing LD by molecular modifications are discovered, and the first exciton gate is experimentally and theoretically demonstrated. Generation of polarons from exciton dissociation represents a second phase of energy migration in OPVs that remains understudied. Current approaches are capable of measuring the rate of charge carrier recombination only at open-circuit. To enable a better understanding of polaron dynamics in thin films, two new approaches are presented which are capable of measuring both the charge carrier recombination and transit rates at any OPV operating voltage. These techniques pave the way for a more complete understanding of charge carrier kinetics in molecular thin films.
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University of Minnesota Ph.D. dissertation. April 2016. Major: Material Science and Engineering. Advisor: Russell Holmes. 1 computer file (PDF); viii, 233 (A-123) pages.
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Mullenbach, Tyler. (2016). Energy Migration in Organic Thin Films—From Excitons to Polarons. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/183346.
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