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Highly active iridium catalyst for hydrogen production from formic acid 被引量:2
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作者 Ying Du Yang-Bin Shen +3 位作者 Yu-Lu Zhan Fan-Di Ning Liu-Ming Yan Xiao-Chun Zhou 《Chinese Chemical Letters》 SCIE CAS CSCD 2017年第8期1746-1750,共5页
Formic acid(FA) dehydrogenation has attracted a lot of attentions since it is a convenient method for H_2 production. In this work, we designed a self-supporting fuel cell system, in which H_2 from FA is supplied in... Formic acid(FA) dehydrogenation has attracted a lot of attentions since it is a convenient method for H_2 production. In this work, we designed a self-supporting fuel cell system, in which H_2 from FA is supplied into the fuel cell, and the exhaust heat from the fuel cell supported the FA dehydrogenation. In order to realize the system, we synthesized a highly active and selective homogeneous catalyst Ir Cp*Cl_2 bpym for FA dehydrogenation. The turnover frequency(TOF) of the catalyst for FA dehydrogenation is as high as7150 h^(-1)at 50°C, and is up to 144,000 h^(-1)at 90°C. The catalyst also shows excellent catalytic stability for FA dehydrogenation after several cycles of test. The conversion ratio of FA can achieve 93.2%, and no carbon monoxide is detected in the evolved gas. Therefore, the evolved gas could be applied in the proton exchange membrane fuel cell(PEMFC) directly. This is a potential technology for hydrogen storage and generation. The power density of the PEMFC driven by the evolved gas could approximate to that using pure hydrogen. 展开更多
关键词 Formic acid hydrogen generation Homogeneous catalyst catalytic performance Proton exchange membrane fuel cell
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