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Temperature Dependent Sensitivity Inversion in SnO_(1.8):Pd Mixed Nanoparticle Layer Based CO Sensors

机译：基于SnO_（1.8）：Pd混合纳米颗粒层的CO传感器中的温度相关灵敏度反转

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This study reports a novel observation of the temperature dependent inversion in the CO sensitivity of the nanoparticle layers consisting of homogeneously mixed monodispersed Pd and SnOi.g nanoparticles synthesized via aerosol route. Ability of sensing CO as low as 10 ppb in dry synthetic air has been observed with decrease in nanoparticle size (to 5 nm) in the samples mixed with Pd nanoparticles, as compared to samples without Pd nanoparticles which show no sensitivity to CO in ppb levels. In contrast to the conductivity increase in SnOi.g in response to CO exposure in the absence of Pd, the mixed nanoparticle layers exhibit decrease in conductivity. With increase in the operating temperature (523 to 673 K) reversal in the sensitivity has been observed at higher CO concentrations. The observed behavior can be understood in terms of the physiochemical and electronic processes.

机译：这项研究报告了一种新颖的观察结果，即通过气溶胶途径合成的均匀混合的单分散Pd和SnOi.g纳米颗粒组成的纳米颗粒层，其CO敏感性随温度而变。与不含Pd纳米颗粒的样品相比，无Pd纳米颗粒的样品对ppb水平的CO没有敏感性。与在不存在Pd的情况下响应于CO暴露引起的SnOi.g的电导率增加相反，混合的纳米颗粒层表现出电导率下降。随着工作温度的升高（523至673 K），在较高的CO浓度下，观察到了灵敏度的逆转。观察到的行为可以通过理化和电子过程来理解。

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《MRS fall meeting》|2008年|p.1-5|共5页
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I. Aruna; F. E. Kruis;
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1. Influence of Ag particle size on ethanol sensing of SnO_(1.8): Ag nanoparticle films: A method to develop parts per billion level gas sensors [J] . Rakesh K. Joshi, F. Einar Kruis Applied Physics Letters . 2006,第15期

机译：Ag粒径对SnO_（1.8）乙醇感测的影响：Ag纳米颗粒薄膜：十亿分之一级气体传感器的开发方法
2. CO ppb sensors based on monodispersed SnO_x:Pd mixed nanoparticle layers: Insight into dual conductance response [J] . I. Aruna, F.E. Kruis, S. Kundu, Extremes . 2009,第6期

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3. Improving Sensitivity and Selectivity of SnO_(2) Gas Sensors by Temperature Variation [J] . Jan Zakrzewski, Wieslaw Domanski, Petros Chaitas, IEEE Transactions on Instrumentation and Measurement . 2006,第1期

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Temperature Dependent Sensitivity Inversion in SnO_(1.8):Pd Mixed Nanoparticle Layer Based CO Sensors

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