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Semiconductor metal oxide gas sensors: A review

机译:半导体金属氧化物气体传感器:综述

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This review paper encompasses a detailed study of semiconductor metal oxide (SMO) gas sensors. It provides for a detailed comparison of SMO gas sensors with other gas sensors, especially for ammonia gas sensing. Different parameters which affect the performance (sensitivity, selectivity and stability) of SMO gas sensors are discussed here under. This paper also gives an insight about the dopant or impurity induced variations in the SMO materials used for gas sensing. It is concluded that dopants enhance the properties of SMOs for gas sensing applications by changing their microstructure and morphology, activation energy, electronic structure or band gap of the metal oxides. In some cases, dopants create defects in SMOs by generating oxygen vacancy or by forming solid solutions. These defects enhance the gas sensing properties. Different nanostructures (nanowires, nanotubes, heterojunctions), other than nanopowders have also been studied in this review. At the end, examples of SMOs are given to illustrate the potential use of different SMO materials for gas sensing.
机译:这篇综述文章包括对半导体金属氧化物(SMO)气体传感器的详细研究。它提供了SMO气体传感器与其他气体传感器的详细比较,尤其是用于氨气检测。下面讨论影响SMO气体传感器性能(灵敏度,选择性和稳定性)的不同参数。本文还提供了有关用于气体传感的SMO材料中掺杂剂或杂质引起的变化的见解。结论是,掺杂剂通过改变金属氧化物的微观结构和形态,活化能,电子结构或带隙来增强SMO在气体传感应用中的性能。在某些情况下,掺杂剂会通过产生氧空位或形成固溶体而在SMO中造成缺陷。这些缺陷增强了气体感测性能。在这篇综述中,还研究了除纳米粉以外的不同纳米结构(纳米线,纳米管,异质结)。最后,给出了SMO的示例,以说明不同SMO材料在气体传感中的潜在用途。

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