The photocatalytic performances of water oxidation were usually carried out in two different systems,photosensitizer and non-photosensitizer systems.There is few report about the same catalyst used in two systems and ...The photocatalytic performances of water oxidation were usually carried out in two different systems,photosensitizer and non-photosensitizer systems.There is few report about the same catalyst used in two systems and therefore it is of great significant to compare its role of the same catalyst in two systems and explore its different reaction mechanisms.In this work,first 4 kinds of metallic Co microparticles were obtained by different reduction methods through hydrothermal processes,and Co@Co_(3)O_(4) coreshell microparticles(1-4)were obtained from these metallic Co microparticles oxidized in air or in the reacting solution in situ.The core-shell structure of 1 was characterized by a series of analytical techniques.1-4 exhibited excellent activities and stabilities in the[Ru(bpy)3]^(2+)/S_(2) O_(8)^(2-)/light system when they were used as catalysts for the photocata lytic water oxidation.The maximum O2 evolution of 1 after 20 min’s illumination was 98.2 pmol,the O_(2) yield was 65.5%,the initial turnover frequency was 6.6×10^(-3),the initial quantum efficiency(ΦQYinitial)was 15.0%higher than Co(8.3%),CoO(11.7%),Co_(2)O_(3)(1.2%),Co_(3)O_(4)(2.8%)and 5(2.2%).Even after the sixth run,the catalytic activity of recovered 1 still remained 85.1%of initial activity.In addition,the photocatalytic performances of 1 in the[Ru(bpy)_(3)]^(2+)/S_(2)O_(8)2-/light system and S_(2) O_(8)^(2-)/light system were compared for the first time.In the nonphotosensitizer system,1 shows bifunctional roles and acts as optical absorption center and active catalytic site,and oxygen evolution rate is lower and it takes longer time.In the photosensitizer system,1 only acts as a catalyst,the photosensitizer enhances the light absorption and promotes water oxidation reaction with higher O_(2) yield and QE,meanwhile the photosensitizer brings the defect of high cost and instability into the system.Based on the results the two different reaction mechanisms were deeply discussed.展开更多
基金the funding support from the National Natural Science Foundation of China(No.21861035)the University Scientific Research Project of Xinjiang Uyghur Autonomous Region(No.XJEDU2017I001)。
文摘The photocatalytic performances of water oxidation were usually carried out in two different systems,photosensitizer and non-photosensitizer systems.There is few report about the same catalyst used in two systems and therefore it is of great significant to compare its role of the same catalyst in two systems and explore its different reaction mechanisms.In this work,first 4 kinds of metallic Co microparticles were obtained by different reduction methods through hydrothermal processes,and Co@Co_(3)O_(4) coreshell microparticles(1-4)were obtained from these metallic Co microparticles oxidized in air or in the reacting solution in situ.The core-shell structure of 1 was characterized by a series of analytical techniques.1-4 exhibited excellent activities and stabilities in the[Ru(bpy)3]^(2+)/S_(2) O_(8)^(2-)/light system when they were used as catalysts for the photocata lytic water oxidation.The maximum O2 evolution of 1 after 20 min’s illumination was 98.2 pmol,the O_(2) yield was 65.5%,the initial turnover frequency was 6.6×10^(-3),the initial quantum efficiency(ΦQYinitial)was 15.0%higher than Co(8.3%),CoO(11.7%),Co_(2)O_(3)(1.2%),Co_(3)O_(4)(2.8%)and 5(2.2%).Even after the sixth run,the catalytic activity of recovered 1 still remained 85.1%of initial activity.In addition,the photocatalytic performances of 1 in the[Ru(bpy)_(3)]^(2+)/S_(2)O_(8)2-/light system and S_(2) O_(8)^(2-)/light system were compared for the first time.In the nonphotosensitizer system,1 shows bifunctional roles and acts as optical absorption center and active catalytic site,and oxygen evolution rate is lower and it takes longer time.In the photosensitizer system,1 only acts as a catalyst,the photosensitizer enhances the light absorption and promotes water oxidation reaction with higher O_(2) yield and QE,meanwhile the photosensitizer brings the defect of high cost and instability into the system.Based on the results the two different reaction mechanisms were deeply discussed.
