Stimulated Emission-Controlled Photonic Transistor on a Single Organic Triblock Nanowire

Kang Wang; Wenqing Zhang; Zhenhua Gao; Yongli Yan; Xianqing Lin; Haiyun Dong; Chunhuan Zhang; Wei Zhang; Jiannian Yao; Yong Sheng Zhao

doi:10.1021/jacs.8b04699

Stimulated Emission-Controlled Photonic Transistor on a Single Organic Triblock Nanowire

Kang Wang, Wenqing Zhang, Zhenhua Gao, Yongli Yan^*, Xianqing Lin, Haiyun Dong, Chunhuan Zhang, Wei Zhang, Jiannian Yao, Yong Sheng Zhao

^*Corresponding author for this work

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

45 Citations (Scopus)

Abstract

In this work, we demonstrate a stimulated emission-controlled photonic transistor on a single organic triblock nanowire composed of alternate energy donor and acceptor. The population of acceptor excitons was engineered by energy transfer to achieve enhanced fluorescence, which was further amplified by the stimulated emission of the donor and the optical feedback in the nanowire microcavities, yielding a remarkable nonlinear amplification of the acceptor emission. On this basis, a prototype of photonic transistor with high nonlinear gain at very low pump energy was achieved. The results will provide a useful enlightenment for the rational design of novel all-optical switches with desired performances.

Original language	English
Pages (from-to)	13147-13150
Number of pages	4
Journal	Journal of the American Chemical Society
Volume	140
Issue number	41
DOIs	https://doi.org/10.1021/jacs.8b04699
Publication status	Published - 17 Oct 2018
Externally published	Yes

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title = "Stimulated Emission-Controlled Photonic Transistor on a Single Organic Triblock Nanowire",

abstract = "In this work, we demonstrate a stimulated emission-controlled photonic transistor on a single organic triblock nanowire composed of alternate energy donor and acceptor. The population of acceptor excitons was engineered by energy transfer to achieve enhanced fluorescence, which was further amplified by the stimulated emission of the donor and the optical feedback in the nanowire microcavities, yielding a remarkable nonlinear amplification of the acceptor emission. On this basis, a prototype of photonic transistor with high nonlinear gain at very low pump energy was achieved. The results will provide a useful enlightenment for the rational design of novel all-optical switches with desired performances.",

author = "Kang Wang and Wenqing Zhang and Zhenhua Gao and Yongli Yan and Xianqing Lin and Haiyun Dong and Chunhuan Zhang and Wei Zhang and Jiannian Yao and Zhao, {Yong Sheng}",

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AU - Wang, Kang

AU - Zhang, Wenqing

AU - Gao, Zhenhua

AU - Yan, Yongli

AU - Lin, Xianqing

AU - Dong, Haiyun

AU - Zhang, Chunhuan

AU - Zhang, Wei

AU - Yao, Jiannian

AU - Zhao, Yong Sheng

PY - 2018/10/17

Y1 - 2018/10/17

N2 - In this work, we demonstrate a stimulated emission-controlled photonic transistor on a single organic triblock nanowire composed of alternate energy donor and acceptor. The population of acceptor excitons was engineered by energy transfer to achieve enhanced fluorescence, which was further amplified by the stimulated emission of the donor and the optical feedback in the nanowire microcavities, yielding a remarkable nonlinear amplification of the acceptor emission. On this basis, a prototype of photonic transistor with high nonlinear gain at very low pump energy was achieved. The results will provide a useful enlightenment for the rational design of novel all-optical switches with desired performances.

AB - In this work, we demonstrate a stimulated emission-controlled photonic transistor on a single organic triblock nanowire composed of alternate energy donor and acceptor. The population of acceptor excitons was engineered by energy transfer to achieve enhanced fluorescence, which was further amplified by the stimulated emission of the donor and the optical feedback in the nanowire microcavities, yielding a remarkable nonlinear amplification of the acceptor emission. On this basis, a prototype of photonic transistor with high nonlinear gain at very low pump energy was achieved. The results will provide a useful enlightenment for the rational design of novel all-optical switches with desired performances.

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SN - 0002-7863

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EP - 13150

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 41

ER -

Stimulated Emission-Controlled Photonic Transistor on a Single Organic Triblock Nanowire

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