Over the past decade,the power conversion efficiency of halide perovskite solar cells has shown a rapid increase to 26.1%.The significant efficiency growth and the relative simplification of the technology for obtaini...Over the past decade,the power conversion efficiency of halide perovskite solar cells has shown a rapid increase to 26.1%.The significant efficiency growth and the relative simplification of the technology for obtaining thin-film solar cells due to liquid printing methods determine the high potential for the low-cost perovskite solar cells manufacturing.However,efficient use of cell geometry is comparable to the size of standard crystalline-Si wafers(156:156 mm and more).Therefore,modular geometry similar to amorphous-Si solar cell approaches is used to scale perovskite solar cells.Serial electrical connection of thin-film cells requires precise processing of the conductive layers that form the device p-i-n structure.The subject of research is the development of a full pulsed laser scribing cycle for inverted perovskite solar cells.In this work,we propose a study of a laser-patterning technology In_(2)O_(3):SnO_(2)(ITO)conductive layer and a photoactive perovskite layer Cs0,2(CH(NH_(2))_(2))_(0,8)PbI_(3).Process regimes of transparent conducting electrodes based on ITO and halide perovskite layer Cs_(0,2)(CH(NH_(2))_(2))_(0,8)PbI_(3)laser patterning were obtained.The optimal parameters for the multipass mode processing of ITO and perovskite layer were determined.The cell was electrically isolated at a scribe line width of 30μm.展开更多
基金support from the Ministry of Science and Higher Education of the Russian Federation in the framework of the Russian Science Foundation Grant No.21-19-00853R.I.,P.G.and A.I.acknowledge the financial support of“Theoretical and methodological framework for digital transformation in radiology”,(USIS No.123031400118-0)in accordance with the Order No.1196 dated December 21,2022"On approval of state assignments funded by means of allocations from the budget of the city of Moscow to the state budgetary(autonomous)institutions subordinate to the Moscow Health Care Department,for 2023 and the planned period of 2024 and 2025"issued by the Moscow Health Care Department.
文摘Over the past decade,the power conversion efficiency of halide perovskite solar cells has shown a rapid increase to 26.1%.The significant efficiency growth and the relative simplification of the technology for obtaining thin-film solar cells due to liquid printing methods determine the high potential for the low-cost perovskite solar cells manufacturing.However,efficient use of cell geometry is comparable to the size of standard crystalline-Si wafers(156:156 mm and more).Therefore,modular geometry similar to amorphous-Si solar cell approaches is used to scale perovskite solar cells.Serial electrical connection of thin-film cells requires precise processing of the conductive layers that form the device p-i-n structure.The subject of research is the development of a full pulsed laser scribing cycle for inverted perovskite solar cells.In this work,we propose a study of a laser-patterning technology In_(2)O_(3):SnO_(2)(ITO)conductive layer and a photoactive perovskite layer Cs0,2(CH(NH_(2))_(2))_(0,8)PbI_(3).Process regimes of transparent conducting electrodes based on ITO and halide perovskite layer Cs_(0,2)(CH(NH_(2))_(2))_(0,8)PbI_(3)laser patterning were obtained.The optimal parameters for the multipass mode processing of ITO and perovskite layer were determined.The cell was electrically isolated at a scribe line width of 30μm.
