Computational Identification of Novel Families of Nonfullerene Acceptors by Modification of Known Compounds

We considered a database of tens of thousands of known organic semiconductors and identified those compounds with computed electronic properties (orbital energies, excited state energies, and oscillator strengths) that would make them suitable as nonfullerene electron acceptors in organic solar cell...

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Veröffentlicht in:	The journal of physical chemistry letters 2021-05, Vol.12 (20), p.5009-5015
Hauptverfasser:	Zhao, Zhi-Wen, Omar, Ömer H, Padula, Daniele, Geng, Yun, Troisi, Alessandro
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Sprache:	eng
Schlagworte:	Physical Insights into Materials and Molecular Properties
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creator	Zhao, Zhi-Wen Omar, Ömer H Padula, Daniele Geng, Yun Troisi, Alessandro
description	We considered a database of tens of thousands of known organic semiconductors and identified those compounds with computed electronic properties (orbital energies, excited state energies, and oscillator strengths) that would make them suitable as nonfullerene electron acceptors in organic solar cells. The range of parameters for the desirable acceptors is determined from a set of experimentally characterized high-efficiency nonfullerene acceptors. This search leads to ∼30 lead compounds never considered before for organic photovoltaic applications. We then proceed to modify these compounds to bring their computed solubility in line with that of the best small-molecule nonfullerene acceptors. A further refinement of the search can be based on additional properties like the reorganization energy for chemical reduction. This simple strategy, which relies on a few easily computable parameters and can be expanded to a larger set of molecules, enables the identification of completely new chemical families to be explored experimentally.
doi_str_mv	10.1021/acs.jpclett.1c01010
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title	Computational Identification of Novel Families of Nonfullerene Acceptors by Modification of Known Compounds
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