International Journal of Smart Grid - ijSmartGrid

In this research work, we show how to develop and simulate Copper Antimony Selenide (CuSbSe₂) based thin film solar cell with dual-heterojunction. Copper Antimony Selenide (CuSbSe₂) creates a p-n junction with a window layer and another p-p⁺ connection with a highly doped back surface Field (BSF) layer, and a dual-heterojunction solar cell structure is produced. Using SCAPS-1D software, which incorporates published experimental physical parameters, the simulation was run. The simulation results show that the PCE of the single heterojunction structure (n-CdS/p-CuSbSe₂/Ni) solar cell may reach 27.12 % with V_oc=0.738 V, J_sc=43.08 mA/cm² & FF=85.23 % with the normal level of temperature coefficient (TC). For the dual heterojunction structure (n-CdS/p-CuSbSe₂/p⁺-CGS/Ni) the results exhibit the best Power Conversion Efficiency (PCE) as high as 46.32 % with V_oc=1.053 V, J_sc=54.34 mA/cm² & FF=80.97 % and a good level of temperature coefficient (TC) is found to be (-0.042 %/?C). 

Dual-heterojunction; CuSbSe2; BSF; PCE; Thermal stability.

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