摘要
The appropriate regulation of band structure is an effective strategy in constructing efficient photocatalytic systems.Present photocatalytic system mainly employs powder photocatalysts,which makes their recovery reliant on expensive separation processes and severely limits their industrial application.Herein,we constructed a novel CdS/Ni_(3)S_(2)heterostructure using free-standing and flexible nickel fiber paper as the matrix.The regulated energy band structure achieves effective electron–hole separation.The as-synthesized flexible photocatalyst exhibits considerable photocatalytic activity toward the H_(2)evolution reaction under visible-light irradiation,with an H_(2)production rate of5.63μmol·cm^(-2)·h^(-1)(14.1 mmol·g^(-1)cat·h^(-1)according to the catalyst loading content).Additionally,the otherwisewasted excited holes simultaneously drive organic transformations to yield value-added organic products,thus markedly improving the photocatalytic H_(2)evolution rate.Such a photocatalytic system is scaled up further,where a self-supported 20 cm×25 cm sample achieves a champion H_(2)production rate of 60-80μmol·h^(-1)under practical sun irradiation.This newly developed self-supported photocatalyst produces opportunities for practical solar H2production with biomass upgrading.
出处
《Rare Metals》
SCIE
EI
CAS
CSCD
2024年第5期2015-2025,共11页
稀有金属(英文版)
基金
supported by the National Natural Science Foundation of China(Nos.51972147,52022037 and 52202366)
Taishan Scholars Project Special Funds(No.tsqn201812083),the Innovative Team Project of Jinan(No.2021GXRC019)
the Natural Science Foundation of Shandong Province(Nos.ZR2019YQ20,ZR2021QE011,ZR2021JQ15 and ZR2022YQ42)
the King Abdullah University of Science and Technology(KAUST)。
