CO impurity-induced catalyst deactivation has long been one of the biggest challenges in proton-exchange membrane fuel cells,with the poisoning phenomenon mainly attributed to the overly strong adsorption on the catal...CO impurity-induced catalyst deactivation has long been one of the biggest challenges in proton-exchange membrane fuel cells,with the poisoning phenomenon mainly attributed to the overly strong adsorption on the catalytic site.Here,we present a mechanistic study that overturns this understanding by using Rh-based single-atom catalysis centers as model catalysts.We precisely modulated the chelation structure of the Rh catalyst by coordinating Rh with C or N atoms,and probed the reaction mechanism by surface-enhanced Raman spectroscopy.Direct spectroscopic evidence for intermediates indicates that the reactivity of adsorbed OH^(*),rather than the adsorption strength of CO^(*),dictates the CO electrocatalytic oxidation behavior.The RhN_(4)sites,which adsorb the OH^(*)intermediate more weakly than RhC4 sites,showed prominent CO oxidation activity that not only far exceeded the traditional Pt/C but also the RhC4 sites with similar CO adsorption strength.From this study,it is clear that a paradigm shift in future research should be considered to rationally design high-performance CO electro-oxidation reaction catalysts by sufficiently considering the water-related reaction intermediate during catalysis.展开更多
目的建立可同时测定尿中11种羟基多环芳烃(hydroxy-polycyclic aromatic hydrocarbons,OH-PAHs)的超高效液相色谱串联质谱分析(ultra-high performance liquid chromatography tandem with mass spectrometry,UPLC-MS/MS)法。方法尿液...目的建立可同时测定尿中11种羟基多环芳烃(hydroxy-polycyclic aromatic hydrocarbons,OH-PAHs)的超高效液相色谱串联质谱分析(ultra-high performance liquid chromatography tandem with mass spectrometry,UPLC-MS/MS)法。方法尿液样品在pH=5.5条件下,在37℃水浴中经β-葡萄糖苷酸酶—芳基硫酸酯酶避光水解16 h,3.0 mL正己烷萃取、涡旋、离心,取上层有机相,重复萃取两次,合并萃取液,氮吹至近干,再复溶于20%乙腈水溶液中。流动相为水和10%异丙醇甲醇溶液,梯度洗脱模式洗脱,CORTECS C18色谱柱分离,ESI-模式测定尿液中11种羟基多环芳烃浓度,内标法定量分析。结果11种羟基多环芳烃线性关系良好,相关系数(r)均大于0.997。方法的检出限为0.01~0.10 ng/mL;日间回收率为79.8%~97.3%,精密度为1.9%~4.7%(n=3);日内回收率为78.6%~92.3%,精密度为3.7%~7.1%(n=3)。结论该方灵敏度高,准确可靠,适用于人群中多种羟基多环芳烃的监测。展开更多
基金Jilin Province Science and Technology Development Program,Grant/Award Numbers:20180101030JC,20190201270JC,20200201001JCNational Natural Science Foundation of China,Grant/Award Numbers:21633008,21673221,21875243,U1601211+1 种基金Research Innovation Fund,Grant/Award Number:DNL202010Special Funds for Guiding Local Scientific and Technological Development by the Central Government,Grant/Award Number:2020JH6/10500021。
文摘CO impurity-induced catalyst deactivation has long been one of the biggest challenges in proton-exchange membrane fuel cells,with the poisoning phenomenon mainly attributed to the overly strong adsorption on the catalytic site.Here,we present a mechanistic study that overturns this understanding by using Rh-based single-atom catalysis centers as model catalysts.We precisely modulated the chelation structure of the Rh catalyst by coordinating Rh with C or N atoms,and probed the reaction mechanism by surface-enhanced Raman spectroscopy.Direct spectroscopic evidence for intermediates indicates that the reactivity of adsorbed OH^(*),rather than the adsorption strength of CO^(*),dictates the CO electrocatalytic oxidation behavior.The RhN_(4)sites,which adsorb the OH^(*)intermediate more weakly than RhC4 sites,showed prominent CO oxidation activity that not only far exceeded the traditional Pt/C but also the RhC4 sites with similar CO adsorption strength.From this study,it is clear that a paradigm shift in future research should be considered to rationally design high-performance CO electro-oxidation reaction catalysts by sufficiently considering the water-related reaction intermediate during catalysis.
文摘目的建立可同时测定尿中11种羟基多环芳烃(hydroxy-polycyclic aromatic hydrocarbons,OH-PAHs)的超高效液相色谱串联质谱分析(ultra-high performance liquid chromatography tandem with mass spectrometry,UPLC-MS/MS)法。方法尿液样品在pH=5.5条件下,在37℃水浴中经β-葡萄糖苷酸酶—芳基硫酸酯酶避光水解16 h,3.0 mL正己烷萃取、涡旋、离心,取上层有机相,重复萃取两次,合并萃取液,氮吹至近干,再复溶于20%乙腈水溶液中。流动相为水和10%异丙醇甲醇溶液,梯度洗脱模式洗脱,CORTECS C18色谱柱分离,ESI-模式测定尿液中11种羟基多环芳烃浓度,内标法定量分析。结果11种羟基多环芳烃线性关系良好,相关系数(r)均大于0.997。方法的检出限为0.01~0.10 ng/mL;日间回收率为79.8%~97.3%,精密度为1.9%~4.7%(n=3);日内回收率为78.6%~92.3%,精密度为3.7%~7.1%(n=3)。结论该方灵敏度高,准确可靠,适用于人群中多种羟基多环芳烃的监测。