On interface recombination, series resistance, and absorber diffusion length in BiI3 solar cells

Abstract: Bismuth triiodide is a lead-free direct wide-bandgap solution-processable semiconductor that could be an alternative to lead-based perovskites in tandem or multijunction solar cells. However, the power conversion efficiency of single-junction BiI3 solar cells remains low. Here, we determine the main loss mechanisms of BiI3 solar cells in both n-i-p and p-i-n architectures. Overall, p-i-n devices have higher power conversion efficiency than that of n-i-p. It is found that n-i-p devices have higher (and signific… Show more

“…15 (a), whose material properties are taken from Refs. [ 36 , 61 , 62 ]. All of them are found to have optimum performance for 10 nm thickness.…”

A numerical approach to optimize the performance of HTL-free carbon electrode-based perovskite solar cells using organic ETLs

“…15 (a), whose material properties are taken from Refs. [ 36 , 61 , 62 ]. All of them are found to have optimum performance for 10 nm thickness.…”

A numerical approach to optimize the performance of HTL-free carbon electrode-based perovskite solar cells using organic ETLs

Performance analysis of wide bandgap inorganic perovskite for indoor photovoltaics for IoT applications: simulation study

Assessing the performance of MoTe2 based solar cell with Cu2O hole transport layer through device simulation