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室温高聚物电解质氢催化传感器
引用本文:张隽,陈霭璠,张麦红,孙鲲鹏,罗瑞贤. 室温高聚物电解质氢催化传感器[J]. 北京化工大学学报(自然科学版), 2001, 28(2): 80-83
作者姓名:张隽  陈霭璠  张麦红  孙鲲鹏  罗瑞贤
作者单位:北京化工大学应用化学系, 北京 100029
基金项目:北京市自然科学基金;2982016;
摘    要:分别采用混合压膜法和浸渍还原原位化学沉积法,以Pd为催化剂,高聚物质子导体Nafion膜为电解质,研制复合膜电极构成两种不同的室温固态电解质催化氢传感器。探索出以Pd盐自制Pd黑和浸渍还原制备膜电极的工艺条件,考察了一些因素对传感性能的影响,并进行了讨论。

关 键 词:氢传感器 浸渍还原法 固态高聚物电解质 氢气 浓度测量 混合压膜法
收稿时间:2000-09-01
修稿时间:2000-09-01

Hydrogen catalytic sensor based on SPE at room temperature
ZHANG Jun,CHEN Haifan,ZHANG Maihong,SUN Kunpeng,LUO Ruixian. Hydrogen catalytic sensor based on SPE at room temperature[J]. Journal of Beijing University of Chemical Technology, 2001, 28(2): 80-83
Authors:ZHANG Jun  CHEN Haifan  ZHANG Maihong  SUN Kunpeng  LUO Ruixian
Affiliation:Department of Applied Chemistry ,Beijing University of Chemical Technology , Beijing 100029 , China
Abstract:A novel catalytic electrochemical hydrogen sensor which consists of solid polymer electrode (SPE) and catalytic active electrode workable at room temperature was studied and fabricated. Nafion is often utilized as polymer proton conductivity membrane to which a catalytic electrode was bonded from Pd black mixed with graphite and Teflon by the mixture pressing method and in situ impregnation reduction (I R)technique. In this work,the active catalyst of Pd black for hydrogen oxidation was selected and prepared from PdCl 2,the I R deposition procedure were modified to optimize structure parameters for hydrogen sensor and improve the metal utilization so that electrode loading can be reduced without loss of electrochemical performance. The hydrogen sensing characteristic with air as reference gas was examined. The experimental results show that the sensor keeps good sensing character at room temperature.
Keywords:hydrogen sensor  impregnation reduction  solid polymer electrolyte (SPE)
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