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Enhanced ethanol sensing performance of tin oxide nanoparticles doped with palladium and graphene

机译：掺杂钯和石墨烯的氧化锡纳米颗粒的乙醇感测性能增强

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SnO nanoparticles synthesized by a simple precipitation method are doped with palladium and different concentrations of graphene to improve the ethanol sensing performance. By incorporating 0.1 wt% graphene and 3 wt% PdCl into SnO, the sensor has good sensitivity and the working temperature could be down to 40 °C. The response time and recovery time of the gas sensor are also reduced to 1 s and 3 s at 100 °C, respectively.

机译：通过简单的沉淀方法合成的SnO纳米颗粒掺有钯和不同浓度的石墨烯，以改善乙醇感测性能。通过将0.1 wt％的石墨烯和3 wt％的PdCl掺入SnO中，该传感器具有良好的灵敏度，工作温度可降至40°C。气体传感器的响应时间和恢复时间在100°C时也分别减少到1 s和3 s。

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《IEEE International Conference on Solid-State and Integrated Circuit Technology 》|2016年|668-670|共3页
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Jiabin Fang; Yiping Zhu; Dajun Wu; Chi Zhang; Shaohui Xu; Dayuan Xiong; Pingxiong Yang; Lianwei Wang; Paul K. Chu;
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Heating systems; Nanostructured materials;

机译：加热系统;纳米结构材料;

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Enhanced ethanol sensing performance of tin oxide nanoparticles doped with palladium and graphene

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