Proton-Controlled Organic Microlaser Switch

Microscale laser switches have been playing irreplaceable roles in the development of photonic devices with high integration levels. However, it remains a challenge to switch the lasing wavelengths across a wide range due to relatively fixed energy bands in traditional semiconductors. Here, we repor...

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Veröffentlicht in:	ACS nano 2018-06, Vol.12 (6), p.5734-5740
Hauptverfasser:	Gao, Zhenhua, Zhang, Wei, Yan, Yongli, Yi, Jun, Dong, Haiyun, Wang, Kang, Yao, Jiannian, Zhao, Yong Sheng
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creator	Gao, Zhenhua Zhang, Wei Yan, Yongli Yi, Jun Dong, Haiyun Wang, Kang Yao, Jiannian Zhao, Yong Sheng
description	Microscale laser switches have been playing irreplaceable roles in the development of photonic devices with high integration levels. However, it remains a challenge to switch the lasing wavelengths across a wide range due to relatively fixed energy bands in traditional semiconductors. Here, we report a strategy to switch the lasing wavelengths among multiple states based on a proton-controlled intramolecular charge-transfer (ICT) process in organic dye-doped flexible microsphere resonant cavities. The protonic acids can effectively bind onto the ICT molecules, which thus enhance the ICT strength of the dyes and lead to a red-shifted gain behavior. On this basis, the gain region was effectively modulated by using acids with different proton-donating ability, and as a result, laser switching among multiple wavelengths was achieved. The results will provide guidance for the rational design of miniaturized lasers with performances based on the characteristic of organic optoelectronic materials.
doi_str_mv	10.1021/acsnano.8b01607
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title	Proton-Controlled Organic Microlaser Switch
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