The ever-growing demand for a green energy supply requires more efficient energy conversion and storage solutions.Integrating solar energy conversion and storage systems is one of the most promising approaches for such targets.Researchers have been ded-icated to developing effective,low-cost,and stable integration of solar energy conversion(SC)with various rechargeable battery(RB)technologies,which could potentially close the gap between energy conversion via photovoltaics and electrochemical energy via storage batteries[1-3].Existing integration strategies can be divided into three categories,as shown in Fig.1:(1)direct combi-nation of SC and RBs via an external connection(Fig.1a)[4].This external combination often involves external photovoltaic mod-ules and conductive wires,increasing the cost and volume of the device and limiting the energy conversion efficiency.(2)Internal integration of SC and RBs sharing one electrode(Fig.1b)[4,5].

Jie Wang;Wen Yan;Bo Liu

School of Chemistry and Materials Science,University of Science and Technology of China,Hefei 230026,China

科学通报（英文版）

[1]Jie Wang;Wen Yan;Bo Liu-.Photo-rechargeable lithium-ion battery:progress and prospects)[J].科学通报（英文版）,2022(11):1087-1089

icated,RBs

Photo,rechargeable,lithium,battery,progress,prospects,ever,growing,demand,green,energy,supply,requires,more,efficient,conversion,storage,solutions,Integrating,solar,systems,one,most,promising,approaches,such,targets,Researchers,have,been,developing,effective,low,cost,stable,integration,SC,various,technologies,which,could,potentially,close,gap,between,via,photovoltaics,electrochemical,batteries,Existing,strategies,can,divided,into,three,categories,shown,Fig,direct,external,connection,1a,This,combination,often,involves,mod,ules,conductive,wires,increasing,volume,device,limiting,efficiency,Internal,sharing,electrode,1b

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