Enhanced gas sensing performance of SnO_2/α-MoO_3 heterostructure nanobelts

Xing L.-L.; Yuan S.; Chen Z.-H.; Chen Y.-J.; Xue X.-Y.

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Enhanced gas sensing performance of SnO_2/α-MoO_3 heterostructure nanobelts

机译：SnO_2 /α-MoO_3异质结构纳米带的气敏性能增强

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Extremely high sensitivity and low working temperature of gas sensors are realized from SnO_2/α-MoO_3 heterostructure nanobelts. Their sensitivity against 500ppm ethanol is up to 67.76 at the working temperature of 300 °C, which is higher than that of bare α-MoO _3 and SnO_2 nanostructures. Also the working temperature can be lowered down to 120 °C. Such behaviors are attributed to the variation of the junction barrier at the SnO_2/α-MoO_3 interface. The present results imply that heterostructured 1D nanomaterials may yield gas sensors with improved characteristics, and can be applied to a wide range of gas sensors.

机译：SnO_2 /α-MoO_3异质结构纳米带实现了气体传感器的极高灵敏度和低工作温度。在300°C的工作温度下，它们对500ppm乙醇的敏感性高达67.76，高于裸露的α-MoO_3和SnO_2纳米结构的敏感性。工作温度也可以降低到120°C。这种行为归因于SnO_2 /α-MoO_3界面处的结势垒的变化。本结果暗示异质结构的1D纳米材料可以产生具有改善的特性的气体传感器，并且可以应用于广泛的气体传感器。

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《Nanotechnology》 |2011年第22期|共2页
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Xing L.-L.; Yuan S.; Chen Z.-H.; Chen Y.-J.; Xue X.-Y.;
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1. Enhanced gas sensing performance of SnO_2/α-MoO_3 heterostructure nanobelts [J] . Xing L.-L., Yuan S., Chen Z.-H., Nanotechnology . 2011,第22期

机译：SnO_2 /α-MoO_3异质结构纳米带的气敏性能增强
2. SnO_2 nanoparticles/TiO_2 nanofibers heterostructures: In situ fabrication and enhanced gas sensing performance [J] . Chen Kunquan, Chen Shijian, Pi Mingyu, Solid-State Electronics . 2019,第JULa期

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Enhanced gas sensing performance of SnO_2/α-MoO_3 heterostructure nanobelts

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