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机译:光催化氢能源发展通过金属bi nanosphere抗生素废水掺杂g-C3N4:表演和机制
Shanghai Jiao Tong Univ, Res Ctr Combust & Environm Technol, Shanghai 200240, Peoples R China;
anaerobic environment; Electron spin resonance spectroscopy; NanospheresbismuthCarbon nitrideHydrogen evolutionAntibiotichydrogen economyOxidation potentialGasesAmoxicillin AnhydrousWaste Water;
机译:“低热膨胀材料Bi_(0.5)Ba_(0.5)FeO_(3-δ)在质子传导陶瓷燃料电池阴极中的应用” [Int J Hydrogen Energy 44(2019)21127-21135]
机译:对“ Se掺杂的α-Bi_2O_3的带隙减少和电荷复合率降低导致光电化学和光催化性能增强:理论和实验的见解”的评论[Int J Hydrogen Energy 42(2017)20638-20648]
机译:a Hybrid photocatalytic system Comprising Zns as Light Harvester and an Fe2s2 Hydrogenase mimic as Hydrogen Evolution Catalyst