As an eco-friendly,efficient,and low-cost tech-nique,photoelectrochemical water splitting has attracted growing interest in the production of clean and sustainable hydrogen by the conversion of abundant solar energy.In the photoelectrochemical system,the photoelectrode plays a vital role in absorbing the energy of sunlight to trigger the water splitting process and the overall efficiency de-pends largely on the integration and design of photoelec-trochemical devices.In recent years,the optimization of photoelectrodes and photoelectrochemical devices to achieve highly efficient hydrogen production has been extensively investigated.In this paper,a concise review of recent advances in the modification of nanostructured photoelectrodes and the design of photoelectrochemical devices is presented.Meanwhile,the general principles of structural and morphological factors in altering the photoelectrochemical performance of photoelectrodes are discussed.Furthermore,the performance indicators and first principles to describe the behaviors of charge carriers are analyzed,which will be of profound guiding signifi-cance to increasing the overall efficiency of the photoelectro-chemical water splitting system.Finally,current challenges and prospects for an in-depth understanding of reaction mechanisms using advanced characterization technologies and potential strategies for developing novel photoelec-trodes and advanced photoelectrochemical water splitting devices are demonstrated.

Siliu Lyu;Muhammad Adnan Younis;Zhibin Liu;Libin Zeng;Xianyun Peng;Bin Yang;Zhongjian Li;Lecheng Lei;Yang Hou

Key Laboratory of Biomass Chemical Engineering of Ministry of Education,College of Chemical and Biological Engineering,Zhejiang University,Hangzhou 310027,China;Institute of Zhejiang University-Quzhou,Quzhou 324000,China

化学科学与工程前沿

[1]Siliu Lyu;Muhammad Adnan Younis;Zhibin Liu;Libin Zeng;Xianyun Peng;Bin Yang;Zhongjian Li;Lecheng Lei;Yang Hou-.Rational design on photoelectrodes and devices to boost photoelectrochemical performance of solar-driven water splitting:a mini review)[J].化学科学与工程前沿,2022(06):777-798

Rational,design,photoelectrodes,devices,boost,photoelectrochemical,performance,solar,driven,water,splitting,mini,review,eco,friendly,efficient,low,cost,nique,has,attracted,growing,interest,production,clean,sustainable,hydrogen,by,conversion,abundant,energy,In,system,plays,vital,role,absorbing,sunlight,trigger,process,overall,efficiency,pends,largely,integration,recent,years,optimization,achieve,highly,been,extensively,investigated,this,paper,concise,advances,modification,nanostructured,presented,Meanwhile,general,principles,structural,morphological,factors,altering,are,discussed,Furthermore,indicators,first,describe,behaviors,charge,carriers,analyzed,which,will,profound,guiding,signifi,cance,increasing,Finally,current,challenges,prospects,depth,understanding,reaction,mechanisms,using,advanced,characterization,technologies,potential,strategies,developing,novel,demonstrated

0.538533