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An electronic nose using a single graphene FET and machine learning for water, methanol, and ethanol 被引量:3

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摘要 The poor gas selectivity problem has been a long-standing issue for miniaturized chemical-resistor gas sensors.The electronic nose(e-nose)was proposed in the 1980s to tackle the selectivity issue,but it required top-down chemical functionalization processes to deposit multiple functional materials.Here,we report a novel gas-sensing scheme using a single graphene field-effect transistor(GFET)and machine learning to realize gas selectivity under particular conditions by combining the unique properties of the GFET and e-nose concept.Instead of using multiple functional materials,the gas-sensing conductivity profiles of a GFET are recorded and decoupled into four distinctive physical properties and projected onto a feature space as 4D output vectors and classified to differentiated target gases by using machine-learning analyses.Our single-GFET approach coupled with trained pattern recognition algorithms was able to classify water,methanol,and ethanol vapors with high accuracy quantitatively when they were tested individually.Furthermore,the gas-sensing patterns of methanol were qualitatively distinguished from those of water vapor in a binary mixture condition,suggesting that the proposed scheme is capable of differentiating a gas from the realistic scenario of an ambient environment with background humidity.As such,this work offers a new class of gas-sensing schemes using a single GFET without multiple functional materials toward miniaturized e-noses.
出处 《Microsystems & Nanoengineering》 EI CSCD 2020年第1期969-981,共13页 微系统与纳米工程(英文)
基金 This work was supported in part by PCARI(Philippine-California Advanced Research Institutes),an NSF grant-ECCS-1711227,BSAC(Berkeley Sensor and Actuator Center) the Leading Graduate School Program R03 of MEXT.These devices were fabricated at the UC Berkeley Marvell Nanofabrication Lab.
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