To reduce the quadratic scaling of the series resistance(R)and sheet resistance(Rs)of the devices,physi-cal isolation of the large area devices into small pieces has been proven to be a reliable and cost-efficient pat...To reduce the quadratic scaling of the series resistance(R)and sheet resistance(Rs)of the devices,physi-cal isolation of the large area devices into small pieces has been proven to be a reliable and cost-efficient patterning technique.In this paper,we got an interesting result that the physical isolation did not show obvious effct on the photovoltaic performance of perovskite solar cells(PSCs)when fixing the active area.Three different isolation types,unetched ITO,etched ITO,and laser etching whole devices,have been induced to investigate the physical isolation roles.The results show that the electrons and holes could be collected efficiently in active area for all the isolation types.The proposed mechanism illustrates that the nonradiative recombination and recombination of electrons and hole in inactive area do not influence the performance of devices.This work may open a new way for the commer-cialization of PSCs by reducing the complex process and the etching costs.展开更多
基金Supported by the National Natural Science Foundation of China(Nos.51772039,21703027,21902021,51972293)the Fun-damental Research Funds for the Central Universities,China[No.DUT16RC(4)77]the Grant-in-Aid for Scientific Research(KAK ENHI)Program,Japan(B,Grant No.19H02818).
文摘To reduce the quadratic scaling of the series resistance(R)and sheet resistance(Rs)of the devices,physi-cal isolation of the large area devices into small pieces has been proven to be a reliable and cost-efficient patterning technique.In this paper,we got an interesting result that the physical isolation did not show obvious effct on the photovoltaic performance of perovskite solar cells(PSCs)when fixing the active area.Three different isolation types,unetched ITO,etched ITO,and laser etching whole devices,have been induced to investigate the physical isolation roles.The results show that the electrons and holes could be collected efficiently in active area for all the isolation types.The proposed mechanism illustrates that the nonradiative recombination and recombination of electrons and hole in inactive area do not influence the performance of devices.This work may open a new way for the commer-cialization of PSCs by reducing the complex process and the etching costs.