使用太阳能电池电容模拟器软件模拟和优化以 CH3NH3SnBr3 为吸收层的无 HTL 包晶太阳能电池的装置

IF 0.9 4区材料科学 Q4 MATERIALS SCIENCE, MULTIDISCIPLINARY Journal of Ovonic Research Pub Date : 2024-05-14 DOI:10.15251/jor.2024.202.245

M. V. Kavitha, C. K. Anjali, K. S. Sudheer

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引用次数: 0

摘要

无空穴传输层的过氧化物太阳能电池因其稳定性和低廉的制造成本而备受青睐。在这项工作中，使用 SCAPS-1D 软件对太阳能电池结构进行了器件模拟，以 TiO2 作为电子传输层，无毒化合物 CH3NH3SnBr3 作为吸收材料。该结构的效率为 12.63%。通过改变单个电池参数，如吸收层厚度、吸收层缺陷密度和掺杂浓度、ETL 厚度、ETL 掺杂浓度、温度和吸收层/ETL 接口的缺陷密度，同时保持其他参数不变，对电池性能参数进行了研究。使用优化后的电池参数值进行模拟，效率提高到 24.02%。

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Device simulation and optimization of HTL-free perovskite solar cell with CH3NH3SnBr3 as the absorber layer using solar cell capacitance simulator software

Perovskite solar cells without a hole transport layer have gained popularity due to their stability and affordable manufacturing cost. In this work, device simulation of the solar cell structure is done using SCAPS-1D software with TiO2 as the Electron Transport Layer while toxic-free compound CH3NH3SnBr3 as the absorber material. The efficiency of the structure is found to be 12.63%. The cell performance parameters are investigated by varying individual cell parameters such as absorber layer thickness, absorber layer defect density and doping concentration, ETL thickness, ETL doping concentration, temperature and defect density of the absorber/ETL interface while holding others constant. Simulation with the optimised cell parameter values improves the efficiency to 24.02%.

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来源期刊

Journal of Ovonic Research MATERIALS SCIENCE, MULTIDISCIPLINARY-PHYSICS, APPLIED

CiteScore

1.90

自引率

20.00%

发文量

期刊介绍： Journal of Ovonic Research (JOR) appears with six issues per year and is open to the reviews, papers, short communications and breakings news inserted as Short Notes, in the field of ovonic (mainly chalcogenide) materials for memories, smart materials based on ovonic materials (combinations of various elements including chalcogenides), materials with nano-structures based on various alloys, as well as semiconducting materials and alloys based on amorphous silicon, germanium, carbon in their various nanostructured forms, either simple or doped/alloyed with hydrogen, fluorine, chlorine and other elements of high interest for applications in electronics and optoelectronics. Papers on minerals with possible applications in electronics and optoelectronics are encouraged.