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Pt/WO3 microsensor grown by cold wall reactor Aerosol Assisted Chemical Vapor Deposition for C6H6 and NO2 detection

机译：冷壁反应器气溶胶辅助化学气相沉积法对C 6 H 6 和NO 2 3 微传感器>检测

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Aerosol Assisted Chemical Vapor Deposition (AACVD) induced via localized heating of the gas sensor shows high flexibility, low cost and capability for the direct synthesis of low-dimensional metal oxide nanostructures in a wide scale of substrates. In this work, we report for the first time the successful co-deposition of tungsten trioxide nanowires decorated with Pt nanoparticles (Pt/WO) in a single step, via AACVD method employing the self-heating capability of MEMS transducer platforms. E-SEM and XRD analysis have been used to investigate the morphology and the composition of the nanostructures grown. The fabricated gas microsensors have been tested toward different concentration of NO and CH. In comparison with our previous work, these new results show a clear improvement in the synthesis of the nanostructures, a highly enhanced sensitivity towards small concentrations of benzene, and good sensitivity and selectivity toward NO.

机译：通过对气体传感器进行局部加热而诱导的气溶胶辅助化学气相沉积（AACVD）显示出高的灵活性，低成本以及用于在各种基材中直接合成低维金属氧化物纳米结构的能力。在这项工作中，我们首次报告了采用MEMS换能器平台的自动加热功能的AACVD方法，在一个步骤中成功地共沉积了用Pt纳米颗粒（Pt / WO）装饰的三氧化钨纳米线。 E-SEM和XRD分析已用于研究生长的纳米结构的形态和组成。已对不同浓度的NO和CH测试了制成的气体微传感器。与我们以前的工作相比，这些新结果显示出纳米结构合成方面的明显改善，对少量苯的敏感性大大提高，对NO的敏感性和选择性也很好。

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《IEEE Sensors》|2014年|58-61|共4页
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Annanouch F.E.; Haddi Z.; Llobet E.; Vallejos S.;
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Aerosols; Gas detectors; Heating; Inductors; Nanowires; Temperature sensors; AACVD; cold wall reactor; gas sensors; low dimensional metal oxide nanostructure; self-heating;

机译：气溶胶;气体探测器;加热;电感器;纳米线;温度传感器; AACVD;冷壁反应器;气体传感器;低维金属氧化物纳米结构;自热;

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Pt/WO3 microsensor grown by cold wall reactor Aerosol Assisted Chemical Vapor Deposition for C6H6 and NO2 detection

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