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Electro‑copolymerized film of ruthenium catalyst and redox mediator for electrocatalytic water oxidation
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作者 WANG Hao TANG Kun +2 位作者 SHAO Jiangyang WANG Kezhi ZHONG Yuwu 《无机化学学报》 SCIE CAS CSCD 北大核心 2024年第11期2193-2202,共10页
Electro-copolymerized film containing ruthenium complexes as electron-transfer(or redox)mediators and water-oxidation catalysts by an oxidative copolymerization method is presented.The addition of the redox mediator s... Electro-copolymerized film containing ruthenium complexes as electron-transfer(or redox)mediators and water-oxidation catalysts by an oxidative copolymerization method is presented.The addition of the redox mediator significantly improved the electrocatalytic water-oxidation activity and reduced the overpotential to 220 mV.The prepared electrode showed a water-oxidation catalytic rate constant kobs of 31.7 s^(-1)and an initial turnover frequency of 1.01 s^(-1)in 1000 s by potential electrolysis at 1.7 V applied bias vs NHE(normal hydrogen electrode).The kinetic isotope effect study suggests that the catalytic water oxidation reaction on the electrode surface occurs via a bimolecular coupling mechanism. 展开更多
关键词 water oxidation water splitting ruthenium complexes ELECTROPOLYMERIZATION ELECTROCATALYSIS
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浅谈侧插槽阳极工作“磨合期”
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作者 王长科 王鸿 +1 位作者 王金融 郝运武 《轻金属》 CSCD 北大核心 1998年第8期28-30,共3页
通过对侧插槽的阳极特点以及生产过程遇到的各种问题的分析,提出阳极工作“磨合期”这一概念,利用这一概念来解释生产中的某些问题,为加强阳极与电解管理,缩短“磨合期”,降低原铝消耗及原铝成本、减轻工人的劳动强度提供借鉴。
关键词 侧插自焙阳极 电解配合 磨合期 炼铝 电解
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Electrocatalytic hydrogen evolution from water at low overpotentials with cobalt complexes supported by redox-active bipyridyl-NHC donors
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作者 Lizhu Chen Xiaojun Su Jonah W.Jurss 《Chinese Journal of Catalysis》 SCIE EI CAS CSCD 2022年第12期3187-3194,共8页
Three cobalt complexes bearing tunable,redox-active bipyridyl N-heterocyclic carbene(NHC)-based ligands have been studied for electrocatalytic hydrogen evolution from aqueous solutions.The effect of structural modific... Three cobalt complexes bearing tunable,redox-active bipyridyl N-heterocyclic carbene(NHC)-based ligands have been studied for electrocatalytic hydrogen evolution from aqueous solutions.The effect of structural modifications to the ligand framework is investigated across the catalyst series,which includes a non-macrocyclic derivative(1-Co)and 16-(2-Co)and 15-(3-Co)membered macrocycles.A structure-activity relationship is demonstrated,in which the macrocyclic complexes have greater activity compared to their non-macrocyclic counterpart with the most rigid catalyst,supported by the 15-membered macrocycle,performing best overall.Indeed,3-Co catalyzes H2 evolution from aqueous pH 4 acetate buffer with a Faradaic efficiency of 97%at a low overpotential of 330 mV.Mechanistic studies are consistent with formation of a cobalt-hydride species that is subsequently protonated to evolve H2 via a heterolytic pathway. 展开更多
关键词 Redox-active bipyridyl N-heterocyclic carbene donors Cobalt complex ELECTROCATALYSIS Water splitting Hydrogen evolution
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