Defect engineering greatly enhances the cat-alytic activity of transition metal semiconductor photocat-alysts.Recently,localized surface defects engineering has been intensively researched,but it still remains challenges on how to tilt the balance to the controllable construction of surface defects rather than bulk ones.Here,we report a facile room-temperature solution processing strategy on(001)facet exposed anatase TiO2 nanosheets(ATO),in which localized defects are generated on the surface selectivity with high concentration.To achieve the aspect,lithium-ethylenediamine(Li-EDA)treatment is carried out on(001)facet exposed ATO under a mild condition.The optimized sample exhibits outstanding photocatalytic H2 production rates of 9.28 mmol·g-1·h-1 with loading 0.5 wt％Pt as co-catalyst(AM 1.5),which is nearly 7.5 times higher than that of the pristine ATO.This defect engi-neering strategy of ATO photocatalyst will spark the ideas for the defects engineering and semiconductor photocata-lyst,which is with important application prospect in solar energy conversion,including hydrogen generation and carbon dioxide reduction.

Jiang-Yuan Qiu;Hua-Zhang Feng;Zhao-Hui Chen;Shu-Hong Ruan;Yan-Ping Chen;Ting-Ting Xu;Jing-Yun Su;En-Na Ha;Lu-Yang Wang

College of New Materials and New Energies,Shenzhen Technology University,Shenzhen 518118,China;College of Health Science and Environmental Engineering,Shenzhen Technology University,Shenzhen 518118,China

稀有金属（英文版）

[1]Jiang-Yuan Qiu;Hua-Zhang Feng;Zhao-Hui Chen;Shu-Hong Ruan;Yan-Ping Chen;Ting-Ting Xu;Jing-Yun Su;En-Na Ha;Lu-Yang Wang-.Selective introduction of surface defects in anatase TiO2 nanosheets for highly efficient photocatalytic hydrogen generation)[J].稀有金属（英文版）,2022(06):2074-2083

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