基于氧化锌纳米线的低压驱动传感器用于室温下检测一氧化氮和一氧化碳气体

Low-Voltage-Driven Sensors Based on ZnO Nanowires for Room-Temperature Detection of NO and CO Gases.

作者信息

Kim Jae-Hun, Mirzaei Ali, Kim Hyoun Woo, Kim Sang Sub

机构信息

Department of Materials Science and Engineering , Inha University , Incheon 22212 , Republic of Korea.

Department of Materials Science and Engineering , Shiraz University of Technology , Shiraz 71557-13876 , Iran.

出版信息

ACS Appl Mater Interfaces. 2019 Jul 10;11(27):24172-24183. doi: 10.1021/acsami.9b07208. Epub 2019 Jun 27.

DOI:10.1021/acsami.9b07208

PMID:31246406

Abstract

Herein, we report the synthesis of pristine and Au-functionalized ZnO nanowires (NWs) for low power consumption (self-heated) gas sensors at room temperature. The ZnO NWs were produced via a vapor-liquid-solid growth technique, and Au layers with different thicknesses were sputter-deposited on the ZnO NWs, followed by subsequent annealing. Microscopic characterization methods demonstrated that ZnO NWs were successfully formed. Pristine ZnO NW gas sensors showed the best sensitivity toward either CO or NO gases at 300 and 350 °C, respectively. Also, the sensitivities of pristine ZnO NW gas sensors were tested toward NO gas under different applied voltages; the sensors revealed a good response and selectivity under an applied voltage of 7 V. Au-functionalized ZnO NW gas sensors exhibited the best response for CO gas at an applied voltage of 7 V and showed a much higher response relative to the pristine ZnO NWs. The sensing mechanisms for pristine and functionalized gas sensors are comprehensively discussed.

摘要

在此，我们报道了用于室温下低功耗（自热式）气体传感器的原始及金功能化氧化锌纳米线（NWs）的合成。氧化锌纳米线通过气-液-固生长技术制备，不同厚度的金层溅射沉积在氧化锌纳米线上，随后进行退火处理。微观表征方法表明氧化锌纳米线已成功形成。原始氧化锌纳米线气体传感器分别在300和350°C时对CO或NO气体表现出最佳灵敏度。此外，还测试了原始氧化锌纳米线气体传感器在不同施加电压下对NO气体的灵敏度；该传感器在7 V施加电压下显示出良好的响应和选择性。金功能化氧化锌纳米线气体传感器在7 V施加电压下对CO气体表现出最佳响应，并且相对于原始氧化锌纳米线显示出更高的响应。文中全面讨论了原始及功能化气体传感器的传感机制。

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基于氧化锌纳米线的低压驱动传感器用于室温下检测一氧化氮和一氧化碳气体

Low-Voltage-Driven Sensors Based on ZnO Nanowires for Room-Temperature Detection of NO and CO Gases.

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