High-performance gas sensing achieved by mesoporous tungsten oxide mesocrystals with increased oxygen vacancies

Dong Wang; Jianbo Sun; Xuan Cao

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High-performance gas sensing achieved by mesoporous tungsten oxide mesocrystals with increased oxygen vacancies

机译：通过增加氧空位的介孔氧化钨介晶获得的高性能气体传感

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The inner structure of W_(18)O_(49) mesocrystals was observed by electron microscopy with the help of ultramicrotomy and focused ion beam techniques. The results showed that these mesocrystals contain irregular mesopores formed through partial fusion of self-assembled nanowires, and consequently have long-range structural ordering in one dimension and short-range ordering in the other two dimensions. The W_(18)O_(49) mesocrystals exhibit superior performance in gas sensing applications, which is considered to be associated with the presence of more oxygen vacancy sites in the unique mesoporous structure.

机译：W_（18）O_（49）介晶的内部结构通过电子显微镜在超薄切片和聚焦离子束技术的帮助下进行了观察。结果表明，这些介晶含有通过自组装纳米线的部分融合形成的不规则介孔，因此在一个维度上具有长程结构有序，而在另外两个维度上具有短程有序。 W_（18）O_（49）介晶在气体传感应用中表现出优异的性能，这被认为与独特的介孔结构中存在更多的氧空位有关。

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《Journal of Materials Chemistry, A. Materials for energy and sustainability》 |2013年第30期|共5页
作者
Dong Wang; Jianbo Sun; Xuan Cao;
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中图分类工程材料学;
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1. High-performance gas sensing achieved by mesoporous tungsten oxide mesocrystals with increased oxygen vacancies [J] . Dong Wang, Jianbo Sun, Xuan Cao Journal of Materials Chemistry, A. Materials for energy and sustainability . 2013,第30期

机译：通过增加氧空位的介孔氧化钨介晶获得的高性能气体传感
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High-performance gas sensing achieved by mesoporous tungsten oxide mesocrystals with increased oxygen vacancies

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