Hydrogen production from water splitting is a clean and sustainable hydrogen produc-tion route to alleviate the current energy crisis.However,factors such as energy conversion effi-ciency,cost-effectiveness,and social benefit limit their industrial application.Therefore,the develop-ment of advanced water splitting technologies using clean and renewable energy has become an important research goal of the world.Converting endless solar energy into hydrogen energy directly or indirectly is an effective way to reduce the energy input of hydrogen production.This review fo-cuses on the latest advances in the coupling design of renewable energy supply devices and cata-lytic electrodes in hydrogen production systems.We not only review the single hydrogen production system based on photochemical,photoelectrochemical,photovoltaic,thermoelectric,pyroelectric,and piezoelectric devices,but also discuss the complex systems of the multiple devices.The struc-tural design of energy supply devices and catalytic electrodes and the study of hydrogen production performance in different systems will be critically discussed in this work.Finally,current challenges and future perspectives of advanced technologies for sunlight-electricity-hydrogen nexus are also presented.It is hoped that this review will provide a timely reference for advancing the development of sunlight-electricity-hydrogen nexus and thus achieve the goal of sustainable production of green hydrogen.

Weiquan Ji;Kang Zhang;Ke Zhan;Ping Wang;Xianying Wang;Ya Yan

School of Materials Science and Chemistry,University of Shanghai for Science and Technology,Shanghai 200093,China;CAS Key Laboratory of Materials for Energy Conversion,Shanghai Institute of Ceramics,Chinese Academy of Sciences(SICCAS),Shanghai 200050,China

结构化学

[1]Weiquan Ji;Kang Zhang;Ke Zhan;Ping Wang;Xianying Wang;Ya Yan-.Solar-Powered Environmentally Friendly Hydrogen Production:Advanced Technologies for Sunlight-Electricity-Hydrogen Nexus)[J].结构化学,2022(05):15-29

pyroelectric

Solar,Powered,Environmentally,Friendly,Hydrogen,Production,Advanced,Technologies,Sunlight,Electricity,Nexus,production,from,water,splitting,clean,sustainable,hydrogen,route,alleviate,current,energy,crisis,However,factors,such,conversion,effi,ciency,cost,effectiveness,social,benefit,limit,their,industrial,application,Therefore,advanced,technologies,using,renewable,has,become,important,research,goal,world,Converting,endless,solar,into,indirectly,way,reduce,input,This,review,cuses,latest,advances,coupling,design,supply,devices,electrodes,systems,We,not,only,single,photochemical,photoelectrochemical,photovoltaic,thermoelectric,piezoelectric,but,also,complex,multiple,struc,tural,catalytic,study,performance,different,will,critically,discussed,this,work,Finally,challenges,future,perspectives,sunlight,electricity,nexus,are,presented,It,hoped,that,provide,timely,reference,advancing,development,thus,achieve,green

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