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纳米In2O3的微乳液合成及酒敏性能
引用本文:詹自力 蒋登高 常剑 钟可创 宋文慧. 纳米In2O3的微乳液合成及酒敏性能[J]. 稀有金属材料与工程, 2004, 33(5): 552-554
作者姓名:詹自力 蒋登高 常剑 钟可创 宋文慧
作者单位:1. 郑州大学,河南,郑州,450002
2. 河南汉威电子有限公司,河南,郑州,450002
摘    要:采用微乳液法制备超细In2O3粉体,粉体粒径为8nm,在In2O3基体材料中掺杂Pd及金属氧化物,研制出实用性的热线型C2H5OH气敏元件,该元件功耗低(小丁300mW),选择性高,长期稳定性好。并考察了温度、湿度变化对气敏元件性能的影响,分析了元件的气敏机理。

关 键 词:纳米In2O3 C2H5OH 气敏元件
文章编号:1002-185X(2004)05-0552-03
修稿时间:2002-09-28

The C2H5OH Sensing Property of Nanosized In2O3 Prepared by Microemulsion Method
Zhan Zili,Jiang Denggao,Chang Jian,Zhong Kechuang,Song Wenhui. The C2H5OH Sensing Property of Nanosized In2O3 Prepared by Microemulsion Method[J]. Rare Metal Materials and Engineering, 2004, 33(5): 552-554
Authors:Zhan Zili  Jiang Denggao  Chang Jian  Zhong Kechuang  Song Wenhui
Abstract:The sensitive composite material was prepared by doping Pd and some metal oxides into ultrafine In2O3 matric material(8 nm) prepared by microemulsion method. A kind of selective C2H5OH gas sensor was developed based on a hot wire type gas sensor commercially available. The sensor possesses low power consumption , high selectivity and desirable long term stability. The dependence of the sensor output characteristics on temperature and humidity was also studied, and the working mechanism was discussed.
Keywords:nanosized In2O3  C2H5OH  gas sensor
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