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12 May 2004 Block copolymers for opto-electronics
Sam-Shajing Sun, Zhen Fan, Yiqing Wang, Charles Taft, James H. Haliburton, Shahin Maaref, Abram J. Ledbetter, Carl E. Bonner
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Proceedings Volume 5280, Materials, Active Devices, and Optical Amplifiers; (2004) https://doi.org/10.1117/12.520570
Event: Asia-Pacific Optical and Wireless Communications, 2003, Wuhan, China
Abstract
A D(donor)-B(bridge)-A(acceptor)-B(bridge)-type block copolymer system has been developed and preliminarily examined for potential opto-electronic photovoltaic functions. The unique feature of the device includes a primary DBAB-type block copolymer backbone, where D and A are conjugated donor and acceptor polymer blocks, and B is a non-conjugated and flexible chain, a π orbital stacked and conjugated chain self-assembled and ordered "secondary structure", and a donor/acceptor asymmetric layers sandwiched D/A columnar "tertiary structure". This structure is expected to improve photovoltaic power conversion efficiency significantly in comparison to most existing organic or polymeric donor/acceptor binary photovoltaic systems due to the reduction of "exciton loss", the "carrier loss", as well as the "photon loss" via three-dimensional space and energy level optimizations. Preliminary experimental results revealed better morphology and opto-electronic properties of DBAB vs. D/A blends.
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Sam-Shajing Sun, Zhen Fan, Yiqing Wang, Charles Taft, James H. Haliburton, Shahin Maaref, Abram J. Ledbetter, and Carl E. Bonner "Block copolymers for opto-electronics", Proc. SPIE 5280, Materials, Active Devices, and Optical Amplifiers, (12 May 2004); https://doi.org/10.1117/12.520570
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KEYWORDS
Excitons
Electrodes
Solar cells
Electrons
Solar energy
Interfaces
Optoelectronics
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