Sensitivity enhancemenet in SnO2 based gas sensors by surface decoration with platinum nanoparticles

机译：SnO 2 基于SNO 2 用铂纳米粒子的气体传感器的敏感性增强液

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Gas sensitivity and electronic properties of pure SnO thin films as well as those surface decorated with platinum nanoparticles were examined in different atmospheres. The SnO films were deposited onto SiO substrates by an ultrasonic spray pyrolysis (USP) technique. Then, in a separate process, Pt nanoparticles were electrochemically deposited on their surfaces. Metallic contacts were provided by silver paste printing. The sensors were examined in clean air and 500 ppm ethanol (CHOH) contaminated atmospheres at different operation temperatures in the 275 to 350 °C range. The Pt/SnO sensors proved to be 4 times more sensitive. Moreover, the maximum sensitivity of the Pt-decorated device occurred at a lower operating temperature. These observations are attributed to the catalytic activity of the Pt nanoparticles.

机译：在不同的环境中检查纯SnO薄膜的气体敏感性和电子性质以及用铂纳米粒子装饰的那些表面。通过超声波喷雾热解（USP）技术将SNO膜沉积在SIO基板上。然后，在单独的过程中，Pt纳米颗粒在其表面上电化学沉积。通过银膏印刷提供金属触点。在清洁空气中检查传感器和500ppm乙醇（CHOH）在275至350°C范围内的不同操作温度下受污染的环境。 PT / SNO传感器证明是敏感的4倍。此外，PT装饰装置的最大灵敏度发生在较低的工作温度下。这些观察结果归因于Pt纳米颗粒的催化活性。

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《Iranian Conference on Electrical Engineering》|2014年||共5页
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Moghadam Saeed; Zendehdell Sepideh; Rouhollahi Ahmad;
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中图分类电机;
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gas sensors; nanoparticles; platinum; pyrolysis; spray coatings; tin compounds; Pt; SnOlt; subgt; 2lt; /subgt; USP technique; gas sensitivity enhancemenet; gas sensors; metallic contacts; platinum nanoparticles; silver paste printing; surface decoration; temperature 275 degC to 350 degC; thin films; ultrasonic spray pyrolysis; Gas detectors; Nanoparticles; Substrates; Surface treatment; Temperature sensors; Tin; Gas sensor; Oxide semicondutor; Sensitization; Spray pyrolysis; Tin oxide; pelatinum nanoparticles;

机译：气体传感器;纳米粒子;铂;热解;喷涂;锡化合物;Pt;SnO＆lt;＆gt;2＆lt;/ sub＆gt;USP技术;气体敏感性;气体传感器;金属触点;铂纳米颗粒;表面装饰;表面装饰;表面装饰;表面装饰;表面装饰;表面装饰;表面装饰;温度275 degc至350 degc;薄膜;超声波喷雾热解;气体探测器;纳米粒子;表面处理;温度传感器;锡;罐装;氧化物半导体;致敏;氧化锡;氧化锡;含锡纳米粒子;

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1. LOWER BOUNDS FOR SUP+INF AND SUP*INF AND AN EXTENSION OF CHEN-LIN RESULT IN DIMENSION 3 [J] . Samy Skander Bahoura 数学物理学报（英文版） . 2008,第004期
2. Improved sub-ppm acetone sensing properties of SnO 2 nanowire-based sensor by attachment of Co 3O 4 nanoparticles [J] . Hongseok Kim, Zhicheng Cai, Sung-Pil Chang, Journal of Materials Research and Technology . 2020,第1期

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3. Chemical surface treatment with toluene to enhance sensitivity of?NO 2?gas sensors based on CuPcTs/Alq 3 thin films [J] . Mahdi H. Suhail, Amer A. Ramadan, Shujahadeen B. Aziz, Journal of Science: Advanced Materials and Devices . 2017,第3期

机译：基于CuPcTs / Alq 3 薄膜
4. 3TaGa 3Si 2O 14 crystal-based liquid phase sensors with enhanced stability and sensitivity]]> [J] . Tingfeng Ma, Qiong Zhang, Fapeng Yu, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2017,第期

机译：<！“”帖子“> 2 O 14 基于晶体相传感器，具有增强的稳定性和灵敏度]]]>
5. Sensitivity enhancemenet in SnO2 based gas sensors by surface decoration with platinum nanoparticles [C] . Moghadam Saeed, Zendehdell Sepideh, Rouhollahi Ahmad Iranian Conference on Electrical Engineering . 2014

机译：铂纳米颗粒表面修饰在基于SnO 2 的气体传感器中的灵敏度增强
6. Tuning the performance of nanocarbon-based gas sensors through nanoparticle decoration [D] . Cui, Shumao 2013

机译：通过纳米粒子装饰调节纳米碳的气体传感器的性能
7. Spectroscopic Understanding of SnO2 and WO3 Metal Oxide Surfaces with Advanced Synchrotron Based; XPS-UPS and Near Ambient Pressure (NAP) XPS Surface Sensitive Techniques for Gas Sensor Applications under Operational Conditions [O] . Engin Ciftyürek, Břetislav Šmíd, Zheshen Li, 2019

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8. Mathematical modeling for SnO2 gas sensor based on second-order response [O] . Ata Jahangir Moshayedi, Arash Toudeshki, Dayamanti C. Gharpure 2013

机译：基于二阶响应的SNO 2 气体传感器的数学建模

Sensitivity enhancemenet in SnO2 based gas sensors by surface decoration with platinum nanoparticles

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