Ultrafine SnO_2 prepared by supercritical fluid drying technique (SCFDT) for gas sensors

Fan Lu; Songying Chen; Shaoyi Peng

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Ultrafine SnO_2 prepared by supercritical fluid drying technique (SCFDT) for gas sensors

机译：通过超临界流体干燥技术（SCFDT）制备的超细SnO_2用于气体传感器

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A sol-gel process, followed by supercritical fluid drying (SCFD) was employed to prepare ultrafine tin oxide. Two different procedures were introduced and the powder properties of these two products were measured and compared, including the particle size, specific surface area and pore size distribution. Because the same reactive mechanism occurs in the gas sensing process and catalytic process, the sensor properties can be improved largely by the use of ultrafine tin oxide. In this paper, different gas sensing properties were observed when the two products were used as base materials of gas sensors. The effects of pH value on the pore structure and response (reversion) time of the sensors are also discussed.

机译：采用溶胶-凝胶工艺，然后采用超临界流体干燥（SCFD）制备超细氧化锡。引入了两种不同的程序，并测量和比较了这两种产品的粉末性质，包括粒径，比表面积和孔径分布。因为在气体传感过程和催化过程中会发生相同的反应机理，所以通过使用超细氧化锡可以大大提高传感器的性能。本文将两种产品用作气体传感器的基础材料时，观察到了不同的气体传感特性。还讨论了pH值对传感器的孔结构和响应（回复）时间的影响。

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来源
《Catalysis Today》 |1996年第3期|p.183-188|共6页
作者
Fan Lu; Songying Chen; Shaoyi Peng;
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正文语种 eng
中图分类化学动力学、催化作用;催化反应过程;
关键词
tin oxide; ultrafine particle; gas sensor; supercritical fluid drying technique; response and reversion time;

机译：氧化锡;超细颗粒;气体传感器;超临界流体干燥技术;响应与还原时间;

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Ultrafine SnO_2 prepared by supercritical fluid drying technique (SCFDT) for gas sensors

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