基于由众多纳米片组装而成的三维三氧化钨微花的高灵敏度二氧化氮气体传感器。

High Sensitivity NO₂ Gas Sensor Based on 3D WO₃ Microflowers Assembled by Numerous Nanoplates.

作者信息

Cao Pei-Jiang, Li Meng, Rao Ch N, Han Shun, Xu Wang-Ying, Fang Ming, Liu Xin-Ke, Zeng Yu-Xiang, Liu Wen-Jun, Zhu De-Liang, Lu You-Ming

机构信息

Shenzhen Key Laboratory of Special Functional Materials, Shenzhen Engineering Laboratory for Advanced Technology of Ceramics, Guangdong Research Center for Interfacial Engineering of Functional Materials, and College of Materials Science and Engineering, Shenzhen University; Shenzhen 518055, China.

出版信息

J Nanosci Nanotechnol. 2020 Mar 1;20(3):1790-1798. doi: 10.1166/jnn.2020.17175.

DOI:10.1166/jnn.2020.17175

PMID:31492344

Abstract

Tungsten oxide microflowers (WO₃ MFs) were fabricated by a simple hydrothermal process through adjusting the pH of the solution by HCl. These MFs possess the outer diameters of about 2 m and are composed of numerous nanoplates with the average pore size of 10.9 nm. Chemiresistive activity of as-fabricated WO₃ MFs sensor was attempted towards oxidizing and reducing target gases, revealing a superior selectivity to NO₂ with a maximum response of 22.95 (2 ppm NO₂) @105 °C compared to other target gases. One of the key features of as-fabricatedWO₃ MFs sensor is the lower detection limit of 125 ppb and operating temperature of 105 °C to NO₂ with better reproducibility, signifying commercial prospective of the developed sensor materials. Finally, the gas sensing mechanism of WO₃ MFs sensor has been proposed.

摘要

通过盐酸调节溶液pH值，采用简单水热法制备了氧化钨微花（WO₃ MF）。这些微花的外径约为2μm，由许多纳米片组成，平均孔径为10.9nm。尝试了所制备的WO₃ MF传感器对氧化和还原目标气体的化学电阻活性，结果表明，与其他目标气体相比，该传感器对NO₂具有优异的选择性，在105℃下对2ppm NO₂的最大响应为22.95。所制备的WO₃ MF传感器的一个关键特性是对NO₂的检测下限低至125ppb，工作温度为105℃，且具有更好的重现性，这表明所开发的传感器材料具有商业前景。最后，提出了WO₃ MF传感器的气敏机理。

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基于由众多纳米片组装而成的三维三氧化钨微花的高灵敏度二氧化氮气体传感器。

High Sensitivity NO₂ Gas Sensor Based on 3D WO₃ Microflowers Assembled by Numerous Nanoplates.

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