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Real-Time Tunable Gas Sensing Platform Based on SnO_(2) Nanoparticles Activated by Blue Micro-Light-Emitting DiodesOACSTPCDEI

中文摘要

Micro-light-emitting diodes(μLEDs)have gained significant interest as an activation source for gas sensors owing to their advantages,including room temperature operation and low power consumption.However,despite these benefits,challenges still exist such as a limited range of detectable gases and slow response.In this study,we present a blueμLED-integrated light-activated gas sensor array based on SnO_(2)nanoparticles(NPs)that exhibit excellent sensitivity,tunable selectivity,and rapid detection with micro-watt level power consumption.The optimal power forμLED is observed at the highest gas response,supported by finite-difference time-domain simulation.Additionally,we first report the visible light-activated selective detection of reducing gases using noble metal-decorated SnO_(2)NPs.The noble metals induce catalytic interaction with reducing gases,clearly distinguishing NH3,H2,and C2H5OH.Real-time gas monitoring based on a fully hardwareimplemented light-activated sensing array was demonstrated,opening up new avenues for advancements in light-activated electronic nose technologies.

Gi Baek Nam;Jung-El Ryu;Tae Hoon Eom;Seung Ju Kim;Jun Min Suh;Seungmin Lee;Sungkyun Choi;Cheon Woo Moon;Seon Ju Park;Soo Min Lee;Byungsoo Kim;Sung Hyuk Park;Jin Wook Yang;Sangjin Min;Sohyeon Park;Sung Hwan Cho;Hyuk Jin Kim;Sang Eon Jun;Tae Hyung Lee;Yeong Jae Kim;Jae Young Kim;Young Joon Hong;Jong-In Shim;Hyung-Gi Byun;Yongjo Park;Inkyu Park;Sang-Wan Ryu;Ho Won Jang;

Department of Materials Science and Engineering,Seoul National University,Seoul 08826,Republic of KoreaDepartment of Materials Science and Engineering,Seoul National University,Seoul 08826,Republic of Korea Research Laboratory of Electronics,Department of Mechanical Engineering,Massachusetts Institute of Technology,Cambridge,MA 02139,USADepartment of Materials Science and Engineering,Seoul National University,Seoul 08826,Republic of Korea Ming Hsieh Department of Electrical and Computer Engineering,University of Southern California,Los Angeles,CA 90089,USADepartment of Display Materials Engineering,Soonchunhyang University,Asan 31538,Republic of KoreaDepartment of Photonics and Nanoelectronics,BK21 FOUR ERICA-ACE Center,Hanyang University ERICA,Ansan 15588,Republic of KoreaDepartment of Nanotechnology and Advanced Materials Engineering,Sejong University,Seoul 05006,Republic of KoreaDepartment of Electronics,Information and Communication Engineering,Kangwon National University,Samcheok 25913,Republic of KoreaAdvance Institute of Convergence Technology,Seoul National University,Suwon 16229,Republic of KoreaDepartment of Mechanical Engineering,Korea Advanced Institute of Science and Technology,Daejeon 34141,Republic of KoreaDepartment of Physics,Chonnam National University,Gwangju 500-757,Republic of KoreaDepartment of Materials Science and Engineering,Seoul National University,Seoul 08826,Republic of Korea Advance Institute of Convergence Technology,Seoul National University,Suwon 16229,Republic of Korea

Micro-LEDGas sensor arrayLow power consumptionMetal decorationReal-time detection

《Nano-Micro Letters》 2024 (012)

P.103-119 / 17

supported by the Nano&Material Technology Development Program through the National Research Foundation of Korea(NRF)funded by Ministry of Science and ICT(RS-2024-00405016);supported by“Cooperative Research Program for Agriculture Science and Technology Development(Project No.PJ01706703)”Rural Development Administration,Republic of Korea.The Inter-University Semiconductor Research Center and Institute of Engineering Research at Seoul National University provided research facilities for this work.

10.1007/s40820-024-01486-2

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