Photocatalytic water splitting for hydrogen production is a promising strategy to produce renewable energy and decrease production cost.Spinel-ferrites are potential photocatalysts in photocatalytic reaction system du...Photocatalytic water splitting for hydrogen production is a promising strategy to produce renewable energy and decrease production cost.Spinel-ferrites are potential photocatalysts in photocatalytic reaction system due to their room temperature magnetization,the high thermal and chemical stability,narrow bandgap with broader visible light absorption,and proper conduction band energy level with strong oxidation activity for water or organic compounds.However,the fast recombination of the photoexcited electrons and holes is a critical drawback of ferrites.Therefore,the features of crystallinity,particle size,specific surface area,morphology,and band energy structure have been summarized and investigated to solve this issue.Moreover,composites construction with ferrites and the popular support of TiO_(2)or g-C_(3)N_(4)are also summarized to illustrate the advanced improvement in photocatalytic hydrogen production.It has been shown that ferrites could induce the formation of metal ions impurity energy levels in TiO_(2),and the strong oxidation activity of ferrites could accelerate the oxidation reaction kinetics in both TiO_(2)/ferrites and g-C_(3)N_(4)/ferrites systems.Furthermore,two representative reports of CaFe2O4/MgFe2O4 composite and ZnFe2O4/CdS composite are used to show the efficient heterojunction in a ferrite/ferrite composite and the ability of resistance to photo-corrosion,respectively.展开更多
基金This research was supported by the Basic Science Research Program(2019R1A2C1086881)through the National Research Foundation of Republic of Korea funded by the Ministry of ScienceInformation and Communications Technology(ICT)and Future Planning.
文摘Photocatalytic water splitting for hydrogen production is a promising strategy to produce renewable energy and decrease production cost.Spinel-ferrites are potential photocatalysts in photocatalytic reaction system due to their room temperature magnetization,the high thermal and chemical stability,narrow bandgap with broader visible light absorption,and proper conduction band energy level with strong oxidation activity for water or organic compounds.However,the fast recombination of the photoexcited electrons and holes is a critical drawback of ferrites.Therefore,the features of crystallinity,particle size,specific surface area,morphology,and band energy structure have been summarized and investigated to solve this issue.Moreover,composites construction with ferrites and the popular support of TiO_(2)or g-C_(3)N_(4)are also summarized to illustrate the advanced improvement in photocatalytic hydrogen production.It has been shown that ferrites could induce the formation of metal ions impurity energy levels in TiO_(2),and the strong oxidation activity of ferrites could accelerate the oxidation reaction kinetics in both TiO_(2)/ferrites and g-C_(3)N_(4)/ferrites systems.Furthermore,two representative reports of CaFe2O4/MgFe2O4 composite and ZnFe2O4/CdS composite are used to show the efficient heterojunction in a ferrite/ferrite composite and the ability of resistance to photo-corrosion,respectively.
