CaTi_(2)O_(5)was selectively prepared by a solvothermal process without template and surfactant.The phase of the as-prepared samples was determined by X-ray diffraction(XRD).The microstructure was characterized by sca...CaTi_(2)O_(5)was selectively prepared by a solvothermal process without template and surfactant.The phase of the as-prepared samples was determined by X-ray diffraction(XRD).The microstructure was characterized by scanning electron microscopy(SEM)and transmission electron microscopy(TEM).Results found that pH values had a crucial effect on the crystal phase and shape evolution of the samples.CaTi_(2)O_(5)sample prepared at pH of 5.2 shows high efficient light harvesting,large surface area and crystallinity.Moreover,CaTi_(2)O_(5)shuttle-like sample shows good photocatalytic activity against methyl orange due to its longer and thinner shuttle-like morphology and high crystallinity,enhanced light harvesting and large surface area.The photocatalytic rate of CaTi_(2)O_(5)shuttle-like structure reaches 0.1988 min-1 for 25-min methyl orange degradation under the ultraviolet light irradiation and displays an excellent photostability with a degradation efficiency of 0.1952 min^(-1)after four cycles.展开更多
基金the National Natural Science Foundation of China(No.51502119)Jiangxi Major Natural Science Foundation(Nos.20152ACB21022 and 20161BBH80048)。
文摘CaTi_(2)O_(5)was selectively prepared by a solvothermal process without template and surfactant.The phase of the as-prepared samples was determined by X-ray diffraction(XRD).The microstructure was characterized by scanning electron microscopy(SEM)and transmission electron microscopy(TEM).Results found that pH values had a crucial effect on the crystal phase and shape evolution of the samples.CaTi_(2)O_(5)sample prepared at pH of 5.2 shows high efficient light harvesting,large surface area and crystallinity.Moreover,CaTi_(2)O_(5)shuttle-like sample shows good photocatalytic activity against methyl orange due to its longer and thinner shuttle-like morphology and high crystallinity,enhanced light harvesting and large surface area.The photocatalytic rate of CaTi_(2)O_(5)shuttle-like structure reaches 0.1988 min-1 for 25-min methyl orange degradation under the ultraviolet light irradiation and displays an excellent photostability with a degradation efficiency of 0.1952 min^(-1)after four cycles.
