Self-activated ultrahigh chemosensitivity of oxide thin film nanostructures for transparent sensors

One of the top design priorities for semiconductor chemical sensors is developing simple, low-cost, sensitive and reliable sensors to be built in handheld devices. However, the need to implement heating elements in sensor devices and the resulting high power consumption, remains a major obstacle for...

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Veröffentlicht in:	Scientific reports 2012-08, Vol.2 (1), p.588, Article 588
Hauptverfasser:	Moon, Hi Gyu, Shim, Young-Soek, Kim, Do Hong, Jeong, Hu Young, Jeong, Myoungho, Jung, Joo Young, Han, Seung Min, Kim, Jong Kyu, Kim, Jin-Sang, Park, Hyung-Ho, Lee, Jong-Heun, Tuller, Harry L., Yoon, Seok-Jin, Jang, Ho Won
Format:	Artikel
Sprache:	eng
Schlagworte:	639/301 639/301/1005/1009 639/301/119/995 639/766/25 Chemical sensors Detection limits Electrochemical Techniques Equipment Design Humanities and Social Sciences multidisciplinary Nanostructures - chemistry Nanostructures - ultrastructure Nitrogen dioxide Organic compounds Oxides Oxides - chemistry Power consumption Science Semiconductors Sensors Thin films Tin Tin oxide Tungsten Tungsten oxide VOCs Volatile organic compounds Wavelengths
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creator	Moon, Hi Gyu Shim, Young-Soek Kim, Do Hong Jeong, Hu Young Jeong, Myoungho Jung, Joo Young Han, Seung Min Kim, Jong Kyu Kim, Jin-Sang Park, Hyung-Ho Lee, Jong-Heun Tuller, Harry L. Yoon, Seok-Jin Jang, Ho Won
description	One of the top design priorities for semiconductor chemical sensors is developing simple, low-cost, sensitive and reliable sensors to be built in handheld devices. However, the need to implement heating elements in sensor devices and the resulting high power consumption, remains a major obstacle for the realization of miniaturized and integrated chemoresistive thin film sensors based on metal oxides. Here we demonstrate structurally simple but extremely efficient all oxide chemoresistive sensors with ~90% transmittance at visible wavelengths. Highly effective self-activation in anisotropically self-assembled nanocolumnar tungsten oxide thin films on glass substrate with indium-tin oxide electrodes enables ultrahigh response to nitrogen dioxide and volatile organic compounds with detection limits down to parts per trillion levels and power consumption less than 0.2 microwatts. Beyond the sensing performance, high transparency at visible wavelengths creates opportunities for their use in transparent electronic circuitry and optoelectronic devices with avenues for further functional convergence.
doi_str_mv	10.1038/srep00588
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However, the need to implement heating elements in sensor devices and the resulting high power consumption, remains a major obstacle for the realization of miniaturized and integrated chemoresistive thin film sensors based on metal oxides. Here we demonstrate structurally simple but extremely efficient all oxide chemoresistive sensors with ~90% transmittance at visible wavelengths. Highly effective self-activation in anisotropically self-assembled nanocolumnar tungsten oxide thin films on glass substrate with indium-tin oxide electrodes enables ultrahigh response to nitrogen dioxide and volatile organic compounds with detection limits down to parts per trillion levels and power consumption less than 0.2 microwatts. 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subjects	639/301 639/301/1005/1009 639/301/119/995 639/766/25 Chemical sensors Detection limits Electrochemical Techniques Equipment Design Humanities and Social Sciences multidisciplinary Nanostructures - chemistry Nanostructures - ultrastructure Nitrogen dioxide Organic compounds Oxides Oxides - chemistry Power consumption Science Semiconductors Sensors Thin films Tin Tin oxide Tungsten Tungsten oxide VOCs Volatile organic compounds Wavelengths
title	Self-activated ultrahigh chemosensitivity of oxide thin film nanostructures for transparent sensors
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