Photovoltaic power generation,as a rapidly growing new energy source,is a technology that uses a semiconductor to convert light energy into electrical energy.Sb_(2)S_(3) solar cells possess the advantages of simple bi...Photovoltaic power generation,as a rapidly growing new energy source,is a technology that uses a semiconductor to convert light energy into electrical energy.Sb_(2)S_(3) solar cells possess the advantages of simple binary components,abundant resources,nontoxicity,and excellent stability;they have recently attracted extensive investigation interest.Various strategies,such as solution and vacuum deposition,have been used to fabricate functional layers,including Sb_(2)S_(3) photoactive layers,electron transport layers and hole transport layers.Here,we briefly review the preparation methodologies,morphologies,structures,optoelectronic properties and the corresponding solar cell performance of functional layers for both planar heterojunction solar cells and mesoporous sensitized solar cells.Some viewpoints of further improvement of Sb_(2)S_(3) solar cell conversion efficiency from the aspect of material fabrication and modification are given.展开更多
基金supported by the National Key Research and Development Program of China(SQ2017YFGH001237)the Distinguished Youth Foundation of Anhui Province(1708085J09)the Fundamental Research Funds for the Central Universities(JZ2018HGPB0276).
文摘Photovoltaic power generation,as a rapidly growing new energy source,is a technology that uses a semiconductor to convert light energy into electrical energy.Sb_(2)S_(3) solar cells possess the advantages of simple binary components,abundant resources,nontoxicity,and excellent stability;they have recently attracted extensive investigation interest.Various strategies,such as solution and vacuum deposition,have been used to fabricate functional layers,including Sb_(2)S_(3) photoactive layers,electron transport layers and hole transport layers.Here,we briefly review the preparation methodologies,morphologies,structures,optoelectronic properties and the corresponding solar cell performance of functional layers for both planar heterojunction solar cells and mesoporous sensitized solar cells.Some viewpoints of further improvement of Sb_(2)S_(3) solar cell conversion efficiency from the aspect of material fabrication and modification are given.
