Here, we report an enhanced photovoltaic (PV) performance including open circuit voltage (Voc), short circuit current (Jsc), fill factor (FF) and power conversion efficiency (PCE) of Ni/PEDOT:PSS/n-Si/n-ZnO/Al heterojunction solar cells (HSCs) via numerical simulation. In this structure, n-ZnO is introduced at the interface of Si and Al as back surface field (BSF). Firstly, influence of various device parameters, such as thickness of Si, and PEDOT:PSS layers, carrier concentrations and defect density of Si and PEDOT:PSS on the PV performances of device without ZnO-BSF has been investigated numerically employing Solar Cell Capacitance Simulator (SCAPS-1D) software to find the best possible performance parameters of such HSCs. The maximum PCE of the optimized PEDOT:PSS/n-Si HSC without BSF is achieved as 24.26% with Voc: 0.647 V, Jsc: 44.87 mA/cm2, and FF: 83.52% for tSi of 150 μm with Nd of 1 × 1016 cm−3. After introducing the ZnO-BSF layer of thickness and carrier concentration of 20 nm and 1 × 1017 cm−3 respectively, the significant enhancement in the PCE of the device has been observed. The PCE as high as 31.37% with Voc: 0.784 V, Jsc: 45.31 mA/cm2, and FF: 88.35% was obtained for an optimized ZnO-BSF layer. The PCE is more than 7% (absolute) higher than that of without ZnO-BSF layer. The significant improvement in the PV parameters, primarily in Voc by ~ 137 mV was caused by high built-in potential developed across the junction after insertion of the ZnO-BSF layer. The quantum efficiency of the device further supported the enhanced performance resulting from the reduced recombination of charge carriers at the rear side after n-ZnO-BSF layer. The present numerical simulation study proposes a great potential of ZnO as the BSF layer for the enhanced PV performance of PEDOT:PSS/n-Si based HSCs.Graphical abstract:
Highlights: Simulation study of PEDOT:PSS/Si heterojunction solar cells (HSCs) by SCAPS-1D.Investigation of Si and PEDOT:PSS thickness, carrier and defect concentrations on PCE.Significant enhancement in solar cell performance by ZnO-BSF based device structure.Maximum PCE of > 31.0% and Voc 0.78 V in ZnO-BSF based HSCs predicted by simulation.Enhancement in Voc explained by built-in potential developed across rear junction.