Maximum 17.83% Power-Conversion Efficiency of Au/PEDOT:PSS/ Cs₂TiBr₆/TiO₂/AZO based Novel Lead-Free Perovskite Solar Cell.
Abstract:
Lead halide perovskite solar cell shows an enormous potential for the next generation renewable energy, but it also offers some environmental hazards due to their inheren...Show MoreMetadata
Abstract:
Lead halide perovskite solar cell shows an enormous potential for the next generation renewable energy, but it also offers some environmental hazards due to their inherent lead-based toxicity. On the other hand, if lead based perovskite is efficiently replaced by other non-toxic metal based perovskite then their toxicity can remarkably be reduced for photovoltaic applications. In this study, a novel lead free compound Cs2TiBr6 based photovoltaic device is proposed as Au/PEDOT:PSS/ Cs2TiBr6/TiO2/AZO, where each layer is optimized and analysed through a series of simulations for maximum power-conversion efficiency using SCAPS-1D software. Comprehensive optimization of the thickness and doping density of each layer leads to the maximum power-conversion efficiency up to 17.83% for our proposed solar cell. Therefore, we believe that these results will provide a route heading towards the progress of lead-free and highly efficient perovskite photovoltaic devices.
Maximum 17.83% Power-Conversion Efficiency of Au/PEDOT:PSS/ Cs₂TiBr₆/TiO₂/AZO based Novel Lead-Free Perovskite Solar Cell.
Published in: IEEE Access ( Volume: 9)
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- IEEE Keywords
- Index Terms
- Solar Cells ,
- Perovskite Solar Cells ,
- Lead-free Perovskite ,
- Lead-free Perovskite Solar Cells ,
- Layer Thickness ,
- Maximum Efficiency ,
- Device Efficiency ,
- Power Conversion Efficiency ,
- Photovoltaic Applications ,
- Doping Density ,
- Maximum Power Conversion Efficiency ,
- Efficient Perovskite ,
- Optical Properties ,
- Electron Density ,
- Zinc Oxide ,
- Indium Tin Oxide ,
- Open-circuit Voltage ,
- Doping Concentration ,
- Short-circuit Current ,
- Electrical Parameters ,
- Hole Transport Layer ,
- Mesoporous Layer ,
- Absorber Layer ,
- Efficient Perovskite Solar Cells ,
- Excellent Electrical Properties ,
- Optimal Doping ,
- Photovoltaic Parameters ,
- Efficiency Of Solar Cells ,
- Function Of Thickness ,
- Transparent Conductive Oxide
- Author Keywords
- Lead free ,
- perovskite ,
- solar-cell ,
- numerical simulation ,
- Cs₂TiBr₆ ,
- PEDOT:PSS ,
- AZO ,
- TiO₂ ,
- SCAPS 1D
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Solar Cells ,
- Perovskite Solar Cells ,
- Lead-free Perovskite ,
- Lead-free Perovskite Solar Cells ,
- Layer Thickness ,
- Maximum Efficiency ,
- Device Efficiency ,
- Power Conversion Efficiency ,
- Photovoltaic Applications ,
- Doping Density ,
- Maximum Power Conversion Efficiency ,
- Efficient Perovskite ,
- Optical Properties ,
- Electron Density ,
- Zinc Oxide ,
- Indium Tin Oxide ,
- Open-circuit Voltage ,
- Doping Concentration ,
- Short-circuit Current ,
- Electrical Parameters ,
- Hole Transport Layer ,
- Mesoporous Layer ,
- Absorber Layer ,
- Efficient Perovskite Solar Cells ,
- Excellent Electrical Properties ,
- Optimal Doping ,
- Photovoltaic Parameters ,
- Efficiency Of Solar Cells ,
- Function Of Thickness ,
- Transparent Conductive Oxide
- Author Keywords
- Lead free ,
- perovskite ,
- solar-cell ,
- numerical simulation ,
- Cs₂TiBr₆ ,
- PEDOT:PSS ,
- AZO ,
- TiO₂ ,
- SCAPS 1D