摘要
The nano-structured NiO powder obtained by sol-gel method was doped with 10 wt% gold in order to modify its morphology as well as its electrochemical catalytic activity.The NO_x sensing characteristics of mixed-potential-type YSZ-based planar sensors attached with each of the nano-NiO and the Au-doped nano-NiO materials as a sensing electrode SE) were examined at temperatures of 700℃~800℃.The Au-doped NiO-SE was found to give a large enhancement in the NO_2 sensitivity as well as the NO_2 selectivity at 800℃under wet condition,in comparison with the pure NiO-SE.The reason for the improvement in the NO_2 sensitivity was examined based on the data of polarization curves,impedance spectra and catalytic activity for the gas-phase NO_2 decomposition.
The nano-structured NiO powder obtained by sol-gel method was doped with 10 wt% gold in order to modify its morphology as well as its electrochemical catalytic activity. The NOx sensing characteristics of mixed-potential-type YSZ-based planar sensors attached with each of the nano-NiO and the Au-doped nano-NiO materials as a sensing electrode (SE) were examined at temperatures of 700℃-800℃. The Au-doped NiO-SE was found to give a large enhancement in the NO2 sensitivity as well as the NO2 selectivity at 800℃ under wet condition, in comparison with the pure NiO-SE. The reason for the improvement in the NO2 sensitivity was examined based on the data of polarization curves, impedance spectra and catalytic activity for the gas-phase NO2 decomposition.
出处
《稀有金属材料与工程》
SCIE
EI
CAS
CSCD
北大核心
2006年第A03期36-39,共4页
Rare Metal Materials and Engineering
