基于有机微激光阵列的双通道光子鼻

Xinyun Xu; Wu Zhou; Chunhuan Zhang; Peichen Qin; Jiannian Yao; Haiyun Dong; Yong Sheng Zhao

doi:10.1360/SSC-2025-0140

基于有机微激光阵列的双通道光子鼻

Translated title of the contribution: Dual-channel photonic noses based on organic microlaser arrays

Xinyun Xu, Wu Zhou, Chunhuan Zhang, Peichen Qin, Jiannian Yao, Haiyun Dong^*, Yong Sheng Zhao^*

^*Corresponding author for this work

Advanced Research Institute of Multidisciplinary Science

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

Abstract

Artificial photonic noses have great potential in gas detection. However, current artificial photonic noses based on broadband light absorption and emission face the challenge of low detection sensitivity. Here, we propose the construction of novel photon noses based on organic microlaser arrays. The narrow linewidth of lasers significantly enhances gas sensing sensitivity, while dual-channel sensing of laser wavelength and mode spacing improves the capability to distinguish similar gases. The dual variations in wavelength and mode spacing of organic microlaser arrays in response to volatile organic compounds (VOCs) produce unique response patterns. Pattern recognition algorithms successfully identify various single and mixed VOC gases. This work demonstrates the potential of organic microlaser arrays for the development of next-generation artificial photon nose technology.

Translated title of the contribution	Dual-channel photonic noses based on organic microlaser arrays
Original language	Chinese (Traditional)
Pages (from-to)	1581-1588
Number of pages	8
Journal	Scientia Sinica Chimica
Volume	55
Issue number	6
DOIs	http://doi.org/10.1360/SSC-2025-0140
Publication status	Published - 1 Jun 2025

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title = "基于有机微激光阵列的双通道光子鼻",

abstract = "Artificial photonic noses have great potential in gas detection. However, current artificial photonic noses based on broadband light absorption and emission face the challenge of low detection sensitivity. Here, we propose the construction of novel photon noses based on organic microlaser arrays. The narrow linewidth of lasers significantly enhances gas sensing sensitivity, while dual-channel sensing of laser wavelength and mode spacing improves the capability to distinguish similar gases. The dual variations in wavelength and mode spacing of organic microlaser arrays in response to volatile organic compounds (VOCs) produce unique response patterns. Pattern recognition algorithms successfully identify various single and mixed VOC gases. This work demonstrates the potential of organic microlaser arrays for the development of next-generation artificial photon nose technology.",

keywords = "chemical sensor, gas sensing, microlaser array, organic laser, photonic nose",

author = "Xinyun Xu and Wu Zhou and Chunhuan Zhang and Peichen Qin and Jiannian Yao and Haiyun Dong and Zhao, \{Yong Sheng\}",

year = "2025",

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doi = "10.1360/SSC-2025-0140",

language = "繁体中文",

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TY - JOUR

T1 - 基于有机微激光阵列的双通道光子鼻

AU - Xu, Xinyun

AU - Zhou, Wu

AU - Zhang, Chunhuan

AU - Qin, Peichen

AU - Yao, Jiannian

AU - Dong, Haiyun

AU - Zhao, Yong Sheng

PY - 2025/6/1

Y1 - 2025/6/1

N2 - Artificial photonic noses have great potential in gas detection. However, current artificial photonic noses based on broadband light absorption and emission face the challenge of low detection sensitivity. Here, we propose the construction of novel photon noses based on organic microlaser arrays. The narrow linewidth of lasers significantly enhances gas sensing sensitivity, while dual-channel sensing of laser wavelength and mode spacing improves the capability to distinguish similar gases. The dual variations in wavelength and mode spacing of organic microlaser arrays in response to volatile organic compounds (VOCs) produce unique response patterns. Pattern recognition algorithms successfully identify various single and mixed VOC gases. This work demonstrates the potential of organic microlaser arrays for the development of next-generation artificial photon nose technology.

AB - Artificial photonic noses have great potential in gas detection. However, current artificial photonic noses based on broadband light absorption and emission face the challenge of low detection sensitivity. Here, we propose the construction of novel photon noses based on organic microlaser arrays. The narrow linewidth of lasers significantly enhances gas sensing sensitivity, while dual-channel sensing of laser wavelength and mode spacing improves the capability to distinguish similar gases. The dual variations in wavelength and mode spacing of organic microlaser arrays in response to volatile organic compounds (VOCs) produce unique response patterns. Pattern recognition algorithms successfully identify various single and mixed VOC gases. This work demonstrates the potential of organic microlaser arrays for the development of next-generation artificial photon nose technology.

KW - chemical sensor

KW - gas sensing

KW - microlaser array

KW - organic laser

KW - photonic nose

UR - http://www.scopus.com/pages/publications/105012749330

U2 - 10.1360/SSC-2025-0140

DO - 10.1360/SSC-2025-0140

M3 - 文章

AN - SCOPUS:105012749330

SN - 1674-7224

VL - 55

SP - 1581

EP - 1588

JO - Scientia Sinica Chimica

JF - Scientia Sinica Chimica

IS - 6

ER -

基于有机微激光阵列的双通道光子鼻

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