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Khattak, YhAutor (correspondència)Ullah, SAutor o coautorMari, BAutor o coautor

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Effect of MAPbBr3 HTL and CBD Deposited Cd1-xZn1-xS ETL Band Offset on Lead Halide Perovskite Solar Cell

Publicat a:Materials Focus. 7 (5): 610-616 - 2018-10-01 7(5), DOI: 10.1166/mat.2018.1555

Autors: Baig, Faisal; Khattak, Yousaf H; Ullah, Shafi; Mari, Bernabe; Beg, Saira; Khan, Khurram

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Perovskite solar cells are great potential for commercial application with conversion efficiency exceeding for 20%. But the high cost of hole transport material (Spiro-OMETAD), high temperature processing of TiO2 and the back electrode (Au, Ag) used for the fabrication of perovskite solar cell, it is still not considered cost-effective for commercial application. So, for this reason numerical analysis was performed for proposing alternate hole transport layer (HTL) MAPbBr(3), chemical bath deposited (CBD) Cd1-xZn1-xS as electron transport layer (ETL) and with carbon electrode used as a back contact. Device modeling for MAPbBr(3) as HTL, solution processed deposited Cd1-xZn1-xS as ETL and MAPbI(3) as absorber layer was performed in solar cell capacitance simulator (SCAPS). Simulation revealed dependence of open circuit voltage (V-oc), short circuit current (J(sc)), fill factor (FE) and power conversion efficiency (PCE) on HTL valance band offset (VBO), conduction band offset (CBO) between ETL/Absorber, absorber layer thickness and doping concentration of absorber layer. Moreover, the conversion efficiency of 24.20% was achieved with absorber thickness of 500 nm and doping concentration of 5 x 10(15) cm(-3). The result proposed in this work will provide an important guideline for the design of low-cost perovskite solar cell.

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