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The role of proton dynamics on the catalyst-electrolyte interface in the oxygen evolution reaction 被引量:1
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作者 Huiyan Zeng Yanquan Zeng +4 位作者 Jun Qi Long Gu Enna Hong Rui Si Chunzhen Yang 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2022年第1期139-147,共9页
The development of non‐precious metal catalysts that facilitate the oxygen evolution reaction(OER)is important for the widespread application of hydrogen production by water splitting.Various perovskite oxides have b... The development of non‐precious metal catalysts that facilitate the oxygen evolution reaction(OER)is important for the widespread application of hydrogen production by water splitting.Various perovskite oxides have been employed as active OER catalysts,however,the underlying mechanism that occurs at the catalyst‐electrolyte interface is still not well understood,prohibiting the design and preparation of advanced OER catalysts.Here,we report a systematic investigation into the effect of proton dynamics on the catalyst‐electrolyte interfaces of four perovskite catalysts:La_(0.5)Sr_(0.5)CoO_(3‐δ)(LSCO),LaCoO_(3),LaFeO_(3),and LaNiO_(3).The pH‐dependent OER activities,H/D kinetic isotope effect,and surface functionalization with phosphate anion groups were investigated to elucidate the role of proton dynamics in the rate‐limiting steps of the OER.For oxides with small charge‐transfer energies,such as LSCO and LaNiO_(3),non‐concerted proton‐coupled electron transfer steps are involved in the OER,and the activity is strongly controlled by the proton dynamics on the catalyst surface.The results demonstrate the important role of interfacial proton transfer in the OER mechanism,and suggest that proton dynamics at the interface should carefully be considered in the design of future high‐performance catalysts. 展开更多
关键词 ELECTROCATALYSIS Water oxidation Oxygen evolution reaction Kinetic isotope effect Proton-coupled electron transfer Reaction mechanism
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热活化过硫酸盐降解四环素及其中间产物毒性研究 被引量:7
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作者 丁文川 杨梅 +3 位作者 曾晓岚 徐晓棠 陈昶文 曾衍铨 《中国给水排水》 CAS CSCD 北大核心 2021年第21期56-63,共8页
以四环素(TC)为目标污染物,研究了热活化过硫酸盐(PS)体系对TC的降解动力学、降解机理及中间产物的生物毒性。结果表明,TC的降解过程符合准一级反应动力学,TC降解主要集中在反应前20 min;提高体系温度或PS/TC(物质的量浓度比)都可以显... 以四环素(TC)为目标污染物,研究了热活化过硫酸盐(PS)体系对TC的降解动力学、降解机理及中间产物的生物毒性。结果表明,TC的降解过程符合准一级反应动力学,TC降解主要集中在反应前20 min;提高体系温度或PS/TC(物质的量浓度比)都可以显著提高TC的降解速率;酸性条件下TC的降解效果最好。TC的降解途径主要包括:脱甲基、脱氨基、脱羟基、开环、加氧和水解。在反应前40~60 min的TC降解中间产物显示出较原TC更高的脱氢酶活性抑制率,其后反应时间越长,TC的矿化程度越高,产物的脱氢酶活性抑制率越低。 展开更多
关键词 四环素 过硫酸盐 热活化 降解途径 中间产物 生物毒性
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