摘要
采用微波加热合成法制备了CoTMPP/BP电化学氧还原催化剂。采用旋转圆盘电极(RDE)研究了BP2000碳载体经30%H2O2或6mol·L-1HNO3化学预处理后对催化剂氧还原催化活性的影响,并且在PEM燃料电池工作站上测试了不同CoTMPP/BP催化剂的燃料电池单电池性能。结果表明,碳载体经过化学预处理后催化剂性能有显著的提高,并且30%H2O2处理效果更好。采用IR、XRD和XPS进一步分析了载体化学预处理对催化剂活性影响的机理:IR结果表明预处理后载体表面羟基(-OH)等含氧基团增多;XRD分析表明900℃热处理后催化剂中有Co3C(101)和金属态Co(111)结构出现;XPS分析表明碳载体预处理后N原子表面浓度以及组分N1和CoⅢ相对比例升高,有利于Co-N4-C活性位的形成,然而组分N1,O1sCoⅢ和CoⅡ的结合能(BE)有所下降。
Cobalt Tetramethoxy-phenylporphyrin (CoTMPP) supported on BP was prepared by microwave synthesis. The influence of chemical pretreatment of carbon supports by 6 mol·L^-1 HNO3 or 30wt% H2O2 on the activity of electrocatalysts for oxygen reduction in acid medium has been investigated by the rotating disc electrode technique, and the fuel cell performance of single cells with the different CoTMPP/BP electrocatalysts was examined under actual PEM fuel cell conditions. It was shown that after chemical pretreatments of carbon support, the oxygen reduction activity of CoTMPP/BP was improved significantly, furthermore, pretreatment with 30%H2O2 showed advantages compared to 6mol·L^-1 HNO3. The mechanism of the influence of pretreatment of BP on the catalytic activity of catalysts was studied by IR, XRD and XPS: IR analysis shows surface groups like hydroxyl groups (-OH) produced on carbon surface. The formation of Co3C(101) and metallic states Co(111) in the catalysts is confirmed by XRD analysis. XPS analysis reveals that both the surface concentration of N and the relative proportion of component N1 and Co^Ⅱ are increased, while the BE of component N1, O1s Co^Ⅲ and Co^Ⅱ are decreased.
出处
《无机化学学报》
SCIE
CAS
CSCD
北大核心
2007年第1期34-40,共7页
Chinese Journal of Inorganic Chemistry
基金
国家自然科学基金资助项目(No.50236010)
国家863计划资助项目(No.2002AA323040)
