Computational prediction for singlet- and triplet-transition energies of charge-transfer compounds

Shuping Huang; Qisheng Zhang; Yoshihito Shiota; Tetsuya Nakagawa; Kazuhiro Kuwabara; Kazunari Yoshizawa; Chihaya Adachi

doi:10.1021/ct400415r

Computational prediction for singlet- and triplet-transition energies of charge-transfer compounds

Shuping Huang, Qisheng Zhang, Yoshihito Shiota, Tetsuya Nakagawa, Kazuhiro Kuwabara, Kazunari Yoshizawa, Chihaya Adachi

Chemistry (Twin Cities)

Research output: Contribution to journal › Article › peer-review

297 Scopus citations

Abstract

Our work reveals a high dependence on charge-transfer (CT) amounts for the optimal Hartree-Fock percentage in the exchange-correlation functional of time-dependent density functional theory (TD-DFT) and the error of a vertical transition energy calculated by a given functional. Using these relations, the zero-zero transition energies of the first singlet and first triplet excited states of various CT compounds are accurately reproduced. ³CT and locally excited triplet (³LE) states are well distinguished and calculated independently.

Original language	English (US)
Pages (from-to)	3872-3877
Number of pages	6
Journal	Journal of Chemical Theory and Computation
Volume	9
Issue number	9
DOIs	https://doi.org/10.1021/ct400415r
State	Published - Sep 10 2013

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AU - Huang, Shuping

AU - Zhang, Qisheng

AU - Shiota, Yoshihito

AU - Nakagawa, Tetsuya

AU - Kuwabara, Kazuhiro

AU - Yoshizawa, Kazunari

AU - Adachi, Chihaya

PY - 2013/9/10

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AB - Our work reveals a high dependence on charge-transfer (CT) amounts for the optimal Hartree-Fock percentage in the exchange-correlation functional of time-dependent density functional theory (TD-DFT) and the error of a vertical transition energy calculated by a given functional. Using these relations, the zero-zero transition energies of the first singlet and first triplet excited states of various CT compounds are accurately reproduced. 3CT and locally excited triplet (3LE) states are well distinguished and calculated independently.

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Computational prediction for singlet- and triplet-transition energies of charge-transfer compounds

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