1. Theoretical studies on the switching behavior of dithienylethene-containing platinum(II) complexes.
- Author
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Zhang, Lisheng, Li, Huifang, Liu, Qingyun, Ye, Min, Zheng, Lvyin, Fan, Xiaolin, and Liang, Wanzhen
- Subjects
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PLATINUM compounds , *POTENTIAL energy surfaces , *STEPWISE reactions (Chemistry) , *CYCLOPOLYMERIZATION , *DENSITY functional theory - Abstract
Stepwise ring closing processes of platinum(II) alkynyl arkynyl bridged DTEs (OO→OC→CC) were studied theoretically with density functional theory method in this work for better understanding the Pt(II) alkynyl coordination effect on the photophysical and photochemical properties of dithienylethene (DTE). It is observed that the absorption spectrum of OO complex is red-shifted compared with that of ring-opened DTE monomer because of the decreased HOMO-LUMO gap energy. The first S 0 →S 1 absorption of OC is red shifted than that of OO and is blue shifted than that of CC complex because of the increased conjugation of the ring-closed DTE moiety. In addition, potential energy surface (PSE) studies show that the energy barrier for the ring-closing process in the ground state of Pt(II) complex is smaller than that of the isolated DTE monomer and the isomerization process is changed from endothermic to exothermic reaction. Moreover, the energy barrier for the first ring-closing process is a little larger than the second ring-closing process involved in the DTE moieties. More important, similar with that in the DTE monomers, the ring closing processes in the ionic and triplet states of Pt(II) complexes is easier than that in the neutral case. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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