Promotion of intramolecular charge transfer in dimethylamino derivatives: Twisting versus acceptor-group rehybridization

Andrzej L. Sobolewski; Wolfgang Domcke

doi:10.1016/0009-2614(96)00724-5

Promotion of intramolecular charge transfer in dimethylamino derivatives: Twisting versus acceptor-group rehybridization

Andrzej L. Sobolewski, Wolfgang Domcke

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Abstract

Ab initio electronic structure calculations have been performed to characterize the charge-transfer process in 4-dimethylami -no-benzonitrile (DMABN) and in 4-dimethylamino-benzethyne (DMABE). The HF, CIS, CASSCF and CASPT2 methods have been employed. Geometry optimization of the charge-transfer (CT) state at the CIS level predicts two local minima on the potential energy surface of the S₁ state: one with twisted dimethylamino group and the second with in-plane bent CN (or CCH) group due to rehybridization of the cyano (or acetyleno) ocarbon atom(s). The two CT states differ in the electron-donor and electron-acceptor character of particular molecular moieties. The results suggest that the mechanisms may compete with each other in the promotion of the CT emission in DMABN, while in DMABE the rehybridization of the CCH group is strongly preferred over the twisting of the dimethylamino group.

Original language	English
Pages (from-to)	119-127
Number of pages	9
Journal	Chemical Physics Letters
Volume	259
Issue number	1-2
DOIs	https://doi.org/10.1016/0009-2614(96)00724-5
State	Published - 30 Aug 1996
Externally published	Yes

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title = "Promotion of intramolecular charge transfer in dimethylamino derivatives: Twisting versus acceptor-group rehybridization",

abstract = "Ab initio electronic structure calculations have been performed to characterize the charge-transfer process in 4-dimethylami -no-benzonitrile (DMABN) and in 4-dimethylamino-benzethyne (DMABE). The HF, CIS, CASSCF and CASPT2 methods have been employed. Geometry optimization of the charge-transfer (CT) state at the CIS level predicts two local minima on the potential energy surface of the S1 state: one with twisted dimethylamino group and the second with in-plane bent CN (or CCH) group due to rehybridization of the cyano (or acetyleno) ocarbon atom(s). The two CT states differ in the electron-donor and electron-acceptor character of particular molecular moieties. The results suggest that the mechanisms may compete with each other in the promotion of the CT emission in DMABN, while in DMABE the rehybridization of the CCH group is strongly preferred over the twisting of the dimethylamino group.",

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T1 - Promotion of intramolecular charge transfer in dimethylamino derivatives

T2 - Twisting versus acceptor-group rehybridization

AU - Sobolewski, Andrzej L.

AU - Domcke, Wolfgang

PY - 1996/8/30

Y1 - 1996/8/30

N2 - Ab initio electronic structure calculations have been performed to characterize the charge-transfer process in 4-dimethylami -no-benzonitrile (DMABN) and in 4-dimethylamino-benzethyne (DMABE). The HF, CIS, CASSCF and CASPT2 methods have been employed. Geometry optimization of the charge-transfer (CT) state at the CIS level predicts two local minima on the potential energy surface of the S1 state: one with twisted dimethylamino group and the second with in-plane bent CN (or CCH) group due to rehybridization of the cyano (or acetyleno) ocarbon atom(s). The two CT states differ in the electron-donor and electron-acceptor character of particular molecular moieties. The results suggest that the mechanisms may compete with each other in the promotion of the CT emission in DMABN, while in DMABE the rehybridization of the CCH group is strongly preferred over the twisting of the dimethylamino group.

AB - Ab initio electronic structure calculations have been performed to characterize the charge-transfer process in 4-dimethylami -no-benzonitrile (DMABN) and in 4-dimethylamino-benzethyne (DMABE). The HF, CIS, CASSCF and CASPT2 methods have been employed. Geometry optimization of the charge-transfer (CT) state at the CIS level predicts two local minima on the potential energy surface of the S1 state: one with twisted dimethylamino group and the second with in-plane bent CN (or CCH) group due to rehybridization of the cyano (or acetyleno) ocarbon atom(s). The two CT states differ in the electron-donor and electron-acceptor character of particular molecular moieties. The results suggest that the mechanisms may compete with each other in the promotion of the CT emission in DMABN, while in DMABE the rehybridization of the CCH group is strongly preferred over the twisting of the dimethylamino group.

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Promotion of intramolecular charge transfer in dimethylamino derivatives: Twisting versus acceptor-group rehybridization

Abstract

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