Design and Numerical Investigation of a Lead-Free Inorganic Layered Double Perovskite Cs4CuSb2Cl12 Nanocrystal Solar Cell by SCAPS-1D

Abstract: In the last decade, perovskite solar cells have made a quantum leap in performance with the efficiency increasing from 3.8% to 25%. However, commercial perovskite solar cells have faced a major impediment due to toxicity and stability issues. Therefore, lead-free inorganic perovskites have been investigated in order to find substitute perovskites which can provide a high efficiency similar to lead-based perovskites. In recent studies, as a kind of lead-free inorganic perovskite material, Cs4CuSb2Cl12 has been … Show more

“…As per previous reports, the simulated results from SCAPS have a good agreement with the experimental results [30,31]. In recent years, a number of research works based on SCAPS-1D software explored its applications in finding highly efficient photovoltaic devices [32][33][34][35][36][37]. Fundamentally, SCAPS-1D solves three sets of equations, Poisson's equation, hole continuity, and electron continuity under the constraint of boundary conditions.…”

Design and Optimize the Performance of Self-Powered Photodetector Based on PbS/TiS3 Heterostructure by SCAPS-1D

“…As per previous reports, the simulated results from SCAPS have a good agreement with the experimental results [30,31]. In recent years, a number of research works based on SCAPS-1D software explored its applications in finding highly efficient photovoltaic devices [32][33][34][35][36][37]. Fundamentally, SCAPS-1D solves three sets of equations, Poisson's equation, hole continuity, and electron continuity under the constraint of boundary conditions.…”

Design and Optimize the Performance of Self-Powered Photodetector Based on PbS/TiS3 Heterostructure by SCAPS-1D

“…SCAPS-1D is a numerical modeling tool intended to simulate thin-film heterojunction solar cells; version 3.3.10 was used in this paper. Software description and its principle of operation can be found in the literature [ [14] , [15] , [16] ]. The SCAPS-1D software principle is based on Poisson and steady-state electron-hole continuity equations.…”

Performance simulation of solar cell based on AZO/CdTe heterostructure by SCAPS 1D software

“…Correspondingly, a small cliff is beneficial, but a large cliff improves the interfacial recombination, leading to a deterioration of the photovoltaic performance. 54 To prove this point, we finally investigated the effect of the ETL electron affinity on the n–i–p PSCs’ performance. From Fig.…”

Rational design of formamidine tin-based perovskite solar cell with 30% potential efficiency via 1-D device simulation