Environment-dependent ultrafast photoisomerization dynamics in Azo dye

Chun Chih Hsu; Yu Ting Wang; Atsushi Yabushita; Chih-Wei Luo; Yi Nan Hsiao; Shiuan-Huei Lin; Takayoshi Kobayashi

doi:10.1021/jp2051307

Environment-dependent ultrafast photoisomerization dynamics in Azo dye

Chun Chih Hsu, Yu Ting Wang, Atsushi Yabushita^*, Chih-Wei Luo, Yi Nan Hsiao, Shiuan-Huei Lin, Takayoshi Kobayashi

^*Corresponding author for this work

Department of Electrophysics

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

15 Scopus citations

Abstract

Azoaromatic dyes have been extensively investigated over the past decade due to their potential use in a variety of optical devices that exploit their ultrafast photoisomerization processes. Among the azoaromatic dyes, Disperse Red 19 is a commercially available azobenzene nonlinear optical chromophore with a relatively high ground-state dipole moment. In the present study, we used ultrafast time-resolved spectroscopy to clarify the dynamics of a push-pull substituted azobenzene dye. Solution and film samples exhibited different ultrafast dynamics, indicating that the molecular environment affects the photoisomerization dynamics of the dye.

Original language	English
Pages (from-to)	11508-11514
Number of pages	7
Journal	Journal of Physical Chemistry A
Volume	115
Issue number	42
DOIs	https://doi.org/10.1021/jp2051307
State	Published - 27 Oct 2011

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title = "Environment-dependent ultrafast photoisomerization dynamics in Azo dye",

abstract = "Azoaromatic dyes have been extensively investigated over the past decade due to their potential use in a variety of optical devices that exploit their ultrafast photoisomerization processes. Among the azoaromatic dyes, Disperse Red 19 is a commercially available azobenzene nonlinear optical chromophore with a relatively high ground-state dipole moment. In the present study, we used ultrafast time-resolved spectroscopy to clarify the dynamics of a push-pull substituted azobenzene dye. Solution and film samples exhibited different ultrafast dynamics, indicating that the molecular environment affects the photoisomerization dynamics of the dye.",

author = "Hsu, {Chun Chih} and Wang, {Yu Ting} and Atsushi Yabushita and Chih-Wei Luo and Hsiao, {Yi Nan} and Shiuan-Huei Lin and Takayoshi Kobayashi",

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AU - Hsu, Chun Chih

AU - Wang, Yu Ting

AU - Yabushita, Atsushi

AU - Luo, Chih-Wei

AU - Hsiao, Yi Nan

AU - Lin, Shiuan-Huei

AU - Kobayashi, Takayoshi

PY - 2011/10/27

Y1 - 2011/10/27

N2 - Azoaromatic dyes have been extensively investigated over the past decade due to their potential use in a variety of optical devices that exploit their ultrafast photoisomerization processes. Among the azoaromatic dyes, Disperse Red 19 is a commercially available azobenzene nonlinear optical chromophore with a relatively high ground-state dipole moment. In the present study, we used ultrafast time-resolved spectroscopy to clarify the dynamics of a push-pull substituted azobenzene dye. Solution and film samples exhibited different ultrafast dynamics, indicating that the molecular environment affects the photoisomerization dynamics of the dye.

AB - Azoaromatic dyes have been extensively investigated over the past decade due to their potential use in a variety of optical devices that exploit their ultrafast photoisomerization processes. Among the azoaromatic dyes, Disperse Red 19 is a commercially available azobenzene nonlinear optical chromophore with a relatively high ground-state dipole moment. In the present study, we used ultrafast time-resolved spectroscopy to clarify the dynamics of a push-pull substituted azobenzene dye. Solution and film samples exhibited different ultrafast dynamics, indicating that the molecular environment affects the photoisomerization dynamics of the dye.

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