An extensive study on multiple ETL and HTL layers to design and simulation of high-performance lead-free CsSnCl3-based perovskite solar cells

材料科学 异质结 钙钛矿(结构) 钙钛矿太阳能电池 太阳能电池 光电子学 氧化铟锡 非阻塞I/O 等效串联电阻 氧化物 氧化锡 纳米技术 化学工程 图层(电子) 冶金 化学 电压 兴奋剂 电气工程 催化作用 工程类 生物化学
作者
M. Khalid Hossain,Gazi Farhan Ishraque Toki,Abdul Kuddus,Mirza H. K. Rubel,M. M. Hossain,H. Bencherif,Md. Ferdous Rahman,Md. Rasidul Islam,Muhammad Mushtaq
出处
期刊:Scientific Reports [Nature Portfolio]
卷期号:13 (1) 被引量:266
标识
DOI:10.1038/s41598-023-28506-2
摘要

Abstract Cesium tin chloride (CsSnCl 3 ) is a potential and competitive absorber material for lead-free perovskite solar cells (PSCs). The full potential of CsSnCl 3 not yet been realized owing to the possible challenges of defect-free device fabrication, non-optimized alignment of the electron transport layer (ETL), hole transport layer (HTL), and the favorable device configuration. In this work, we proposed several CsSnCl 3 -based solar cell (SC) configurations using one dimensional solar cell capacitance simulator (SCAPS-1D) with different competent ETLs like indium–gallium–zinc–oxide (IGZO), tin-dioxide (SnO 2 ), tungsten disulfide (WS 2 ), ceric dioxide (CeO 2 ), titanium dioxide (TiO 2 ), zinc oxide (ZnO), C 60 , PCBM, and HTLs of cuprous oxide (Cu 2 O), cupric oxide (CuO), nickel oxide (NiO), vanadium oxide (V 2 O 5 ), copper iodide (CuI), CuSCN, CuSbS 2 , Spiro MeOTAD, CBTS, CFTS, P3HT, PEDOT:PSS. Simulation results revealed that ZnO, TiO 2 , IGZO, WS 2 , PCBM, and C 60 ETLs-based halide perovskites with ITO/ETLs/CsSnCl 3 /CBTS/Au heterostructure exhibited outstanding photoconversion efficiency retaining nearest photovoltaic parameters values among 96 different configurations. Further, for the six best-performing configurations, the effect of the CsSnCl 3 absorber and ETL thickness, series and shunt resistance, working temperature, impact of capacitance, Mott–Schottky, generation and recombination rate, current–voltage properties, and quantum efficiency on performance were assessed. We found that ETLs like TiO 2 , ZnO, and IGZO, with CBTS HTL can act as outstanding materials for the fabrication of CsSnCl 3 -based high efficiency ( η ≥ 22%) heterojunction SCs with ITO/ETL/CsSnCl 3 /CBTS/Au structure. The simulation results obtained by the SCAPS-1D for the best six CsSnCl 3 -perovskites SC configurations were compared by the wxAMPS (widget provided analysis of microelectronic and photonic structures) tool for further validation. Furthermore, the structural, optical and electronic properties along with electron charge density, and Fermi surface of the CsSnCl 3 perovskite absorber layer were computed and analyzed using first-principle calculations based on density functional theory. Thus, this in-depth simulation paves a constructive research avenue to fabricate cost-effective, high-efficiency, and lead-free CsSnCl 3 perovskite-based high-performance SCs for a lead-free green and pollution-free environment.

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