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Low-Power and ppm-Level Detection of Gas Molecules by Integrated Metal Nanosheets

2019 Symposium on VLSI Technology Pub Date : 2019-06-01 DOI:10.23919/VLSIT.2019.8776552
T. Tanaka, K. Tabuchi, K. Tatehora, Y. Shiiki, S. Nakagawa, T. Takahashi, R. Shimizu, H. Ishikuro, T. Kuroda, T. Yanagida, K. Uchida
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引用次数: 4

Abstract

Ppm-level hydrogen and ammonia in air were recognized by low-power, integrated sensors consisting of catalytic metal nanosheets. Thermal energy necessary for catalytic reactions were given by Joule heating not by external heaters. The ther-mal-aware design of sensors reduces the power consumption to 0.14 mW. The low-power and small-area properties enable large-scale, on-chip integration of molecular sensors, which will be useful in IoT era. A sensor array was successfully connected to a platform with wireless connectivity.
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集成金属纳米片低功率和ppm级气体分子检测
由催化金属纳米片组成的低功耗集成传感器可以识别空气中ppm级别的氢和氨。催化反应所需的热能是由焦耳加热而不是外部加热器提供的。传感器的热故障感知设计将功耗降低到0.14 mW。低功耗和小面积特性使分子传感器的大规模片上集成成为可能,这将在物联网时代非常有用。传感器阵列通过无线连接成功连接到平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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2019 Symposium on VLSI Technology
2019 Symposium on VLSI Technology
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