Nonorthogonal Multireference Wave Function Description of Triplet–Triplet Energy Transfer Couplings

In this study, the use of self-consistent field quasi-diabats is investigated for calculation of triplet energy transfer diabatic coupling elements. It is proposed that self-consistent field quasi-diabats are particularly useful for studying energy transfer (EnT) processes because orbital relaxation...

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Veröffentlicht in:	Journal of chemical theory and computation 2023-11, Vol.19 (21), p.7685-7694
Hauptverfasser:	Thompson, Lee M., Kempfer-Robertson, Emily M., Saha, Saptarshi, Parmar, Saurav, Kozlowski, Pawel M.
Format:	Artikel
Sprache:	eng
Schlagworte:	Charge transfer Couplings Energy transfer Ethylene Performance evaluation Quantum Electronic Structure Self consistent fields Wave functions
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container_title	Journal of chemical theory and computation
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creator	Thompson, Lee M. Kempfer-Robertson, Emily M. Saha, Saptarshi Parmar, Saurav Kozlowski, Pawel M.
description	In this study, the use of self-consistent field quasi-diabats is investigated for calculation of triplet energy transfer diabatic coupling elements. It is proposed that self-consistent field quasi-diabats are particularly useful for studying energy transfer (EnT) processes because orbital relaxation in response to changes in electron configuration is implicitly built into the model. The conceptual model that is developed allows for the simultaneous evaluation of direct and charge-transfer mechanisms to establish the importance of the different possible EnT mechanisms. The method’s performance is evaluated using two model systems: the ethylene dimer and ethylene with the methaniminium cation. While states that mediate the charge-transfer mechanism were found to be higher in energy than the states involved in the direct mechanism, the coupling elements that control the kinetics were found to be significantly larger in the charge-transfer mechanism. Subsequently, we discuss the advantage of the approach in the context of practical difficulties with the use of established approaches.
doi_str_mv	10.1021/acs.jctc.3c00898
format	Article
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While states that mediate the charge-transfer mechanism were found to be higher in energy than the states involved in the direct mechanism, the coupling elements that control the kinetics were found to be significantly larger in the charge-transfer mechanism. 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Chem. Theory Comput</addtitle><date>2023-11-14</date><risdate>2023</risdate><volume>19</volume><issue>21</issue><spage>7685</spage><epage>7694</epage><pages>7685-7694</pages><issn>1549-9618</issn><eissn>1549-9626</eissn><abstract>In this study, the use of self-consistent field quasi-diabats is investigated for calculation of triplet energy transfer diabatic coupling elements. It is proposed that self-consistent field quasi-diabats are particularly useful for studying energy transfer (EnT) processes because orbital relaxation in response to changes in electron configuration is implicitly built into the model. The conceptual model that is developed allows for the simultaneous evaluation of direct and charge-transfer mechanisms to establish the importance of the different possible EnT mechanisms. The method’s performance is evaluated using two model systems: the ethylene dimer and ethylene with the methaniminium cation. 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subjects	Charge transfer Couplings Energy transfer Ethylene Performance evaluation Quantum Electronic Structure Self consistent fields Wave functions
title	Nonorthogonal Multireference Wave Function Description of Triplet–Triplet Energy Transfer Couplings
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