Reversible Thermal‐Induced Fluorescence Color Change of Tetraphenylethylene‐Labeled Nylon‐6
Article 2018 en
Authors
JX
Jia-Ru Xu
WJ
Wenxi Ji
CL
Chao Li
Abstract
1 min read
Abstract Nylon is the first synthetic fiber material and is widely used throughout the world. However, traditional nylons show limited optical applications as they emit no or weak fluorescence. Herein, a fluorescent nylon‐6 is synthesized by utilizing tetraphenylethylene (TPE) carrying two amino groups as coinitiator. The resulting TPE‐labeled nylon‐6 exhibits reversible thermal‐induced fluorescence color change. This unique property arises from the synergistic effect of its chemical structure and conformation. The thermal expansion of the polymer at high temperature induces the phenyl rings of TPE to rotate in a greater extent, which decreases the conjugation of TPE to lead to a blueshift in its fluorescence. The novel fluorescence property of TPE‐labeled nylon‐6 enables it to find applications in fields like chemosensor and security label.
Siwei Zhang, Fulong Ma, Jinhui Jiang, Bo Wu, Junyi Gong, Guang Zhou Xu, Chao Li, Tengteng Chen, Ryan T. K. Kwok, Jacky W. Y. Lam, Zheng Zhao, Ben Zhong Tang
Siwei Zhang, Fulong Ma, Jinhui Jiang, Bo Wu, Junyi Gong, Guang Zhou Xu, Chao Li, Tengteng Chen, Ryan T. K. Kwok, Jacky W. Y. Lam, Zheng Zhao, Ben Zhong Tang
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