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Current Remedy in Ultrathin Crystalline Si Solar Cell by Cu<sub>2</sub>SnS<sub>3</sub> Thin Film toward High Efficiency

Bipanko Kumar Mondal, Ahnaf Tahmid Abir, Jaker Hossain

2024Energy Technology16 citationsDOIOpen Access PDF

Abstract

An ultrathin 15 μm wafer‐based c‐Si solar cell is designed and simulated, wherein the current remedy is done by Cu 2 SnS 3 (CTS) thin film. The ZnSe and AlSb are incorporated as window and back surface field (BSF) layers, respectively, in this model. The ultrathin Si‐based n‐ZnSe/p‐Si exhibits the short‐circuit current density of 30.66 mA cm −2 with an efficiency of 18.80%. The inclusion of p + ‐CTS thin film as a second absorber layer has enhanced this current to 42.14 mA cm −2 . By absorbing sunlight up to 1200 nm, the CTS layer is able to successfully overcome the constraint of thinner Si wafers on longer‐wavelength photon absorption leading to current augmentation. The addition of p ++ ‐AlSb as the BSF layer also boosts the open‐circuit voltage by 300 mV. The rise in V OC is a result of the larger built‐in potential in ZnSe/Si, Si/CTS, and CTS/AlSb interfaces. With enriched current and voltage, the final proposed n‐ZnSe/p‐Si/p + ‐CTS/p ++ ‐AlSb heterostructure theoretically records an efficiency of 35.48% in ultrathin Si solar cells. The current compensation obtained using CTS thin film in this work can give optimism about the future of ultrathin Si solar cells.

Topics & Concepts

Materials scienceOptoelectronicsThin filmWaferHeterojunctionCurrent densityShort circuitSolar cellOpen-circuit voltageLayer (electronics)Current (fluid)Energy conversion efficiencyVoltageNanotechnologyElectrical engineeringQuantum mechanicsEngineeringPhysicsChalcogenide Semiconductor Thin FilmsSilicon and Solar Cell TechnologiesSemiconductor materials and interfaces
Current Remedy in Ultrathin Crystalline Si Solar Cell by Cu<sub>2</sub>SnS<sub>3</sub> Thin Film toward High Efficiency | Litcius