Your search keyword '"Wang, Wen-Yan"' showing total 3 results

1. Acceptor number-dependent ultrafast photo-physical properties of push-pull chromophores using time-resolved methods.

Author

Chi, Xiao-Chun, Wang, Ying-Hui, Gao, Yu, Sui, Ning, Zhang, Li-Quan, Wang, Wen-Yan, Lu, Ran, Ji, Wen-Yu, Yang, Yan-Qiang, and Zhang, Han-Zhuang

Subjects

*CHROMOPHORES spectra, *TRANSIENTS (Dynamics), *ABSORPTION spectra, *SOLID state chemistry, *X-ray diffraction, *INTRAMOLECULAR charge transfer

Abstract

Three push-pull chromophores comprising a triphenylamine (TPA) as electron-donating moiety and functionalized β-diketones as electron acceptor units are studied by various spectroscopic techniques. The time-correlated single-photon counting data shows that increasing the number of electron acceptor units accelerates photoluminescence relaxation rate of compounds. Transient spectra data shows that intramolecular charge transfer (ICT) takes place from TPA units to β-diketones units after photo-excitation. Increasing the number of electron acceptor units would prolong the generation process of ICT state, and accelerate the excited molecule reorganization process and the relaxation process of ICT state. [ABSTRACT FROM AUTHOR]

Published

2018

2. Role of tert-butyl in the linear and nonlinear optical property of push-pull chromophores.

Author

Chi, Xiao-Chun, Lu, Ran, Yu, Gao, Wang, Ying-Hui, Zhou, Shang-Hang, Sui, Ning, Wang, Wen-Yan, Ni, Mou-Cui, Yang, Yan-Qiang, and Zhang, Han-Zhuang

Subjects

*BUTYL group, *CHROMOPHORES, *NONLINEAR optics, *BORON, *CARBAZOLE

Abstract

Through comparing the linear and nonlinear optical property of two pull-push chromophores, which are composed of difluoroboron β-diketonate functionalized with carbazole and tert-butyl carbazole, the role of tert-butyl in chromosphere has been discussed in detail. The tert-butyl unit would lead to the absorption and fluorescence peak red shift and accelerate the fluorescence relaxation rate of chromophores. Moreover, the tert-butyl unit would affect obviously the two-photon optical property of chromophore according to the Z-scan test. The transient absorption (TA) data shows that these two pull-push chromopphores both own intramolecular charge transfer (ICT) characteristics and the tert-butyl unit accelerate the dynamic rate of ICT generation and relaxation process, which may be responsible for the variance of fluorescence property. [ABSTRACT FROM AUTHOR]

Published

2018

3. Influence of electronic acceptor on the excited state properties of push–pull chromophores.

Author

Chi, Xiao-Chun, Ni, Mou-Cui, Wang, Ying-Hui, Sui, Ning, Wang, Wen-Yan, Lu, Ran, Yang, Yan-Qiang, Ji, Wen-Yu, and Zhang, Han-Zhuang

Subjects

*TRIPHENYLAMINE, *KETONES, *ELECTROPHILES, *CHARGE transfer, *PHOTOLUMINESCENCE, *CRYSTAL photochemistry

Abstract

Two push-pull compounds, which are comprised of triphenylamine (TPA) (electron donor units) and functionalized β-diketones difluorboron complexes (electron acceptor units) are probed by many spectroscopies, which offers the relationship between electron acceptor and the intrinsic excited state properties of push–pull chromophores. We found that the photoluminescence (PL) intensity would enhance with the number of electron acceptor. Transient absorption (TA) data shows that intramolecular charge transfer (ICT) process really exists in the two molecules after photoexcitation and this process would be prolonged through increasing the electron-acceptor, which would be responsible for the improvement of PL property. [ABSTRACT FROM AUTHOR]

Published

2017