The impact of doping concentration and thickness of n-InGaN and p-InGaN regions on the power conversion efficiency of single junction-based InGaN solar cells was studied by the Silvaco ATLAS simulation software. The doping concentration 5 × 1019 cm−3 and 1 × 1015 cm−3 were optimized for n-InGaN and p-InGaN regions, respectively. The thickness of 300 nm was optimized for both n-InGaN and p-InGaN regions. The highest efficiency of 22.17% with Jsc = 37.68 mA/cm2, Voc = 0.729 V, and FF = 80.61% was achieved at optimized values of doping concentration and thickness of n-InGaN and p-InGaN regions of InGaN solar cells. The simulation study shows the relevance of the Silvaco ATLAS simulation tool, as well as the optimization of doping concentration...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
Increasing silicon solar cell efficiency plays a vital role in improving the dominant market share o...
International audienceOwing to its good tolerance to radiations, its high light absorption and its I...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
International audienceA detailed investigation on the performance of an InGaN-based double-junction ...
The performances of In0.65Ga0.35N single-junction solar cells with different structures, including v...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
International audienceThe Indium Gallium Nitride (InGaN) III-Nitride ternary alloy has the potential...
Silicon solar cells are prevailing types in the commercial market due to their stability, robustness...
The InGaN ternary alloy has the potentiality to achieve high efficiency solar cells. Indeed the band...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
International audienceIn this paper, we have used simulations to evaluate the impact of the distribu...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
Increasing silicon solar cell efficiency plays a vital role in improving the dominant market share o...
International audienceOwing to its good tolerance to radiations, its high light absorption and its I...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
International audienceA detailed investigation on the performance of an InGaN-based double-junction ...
The performances of In0.65Ga0.35N single-junction solar cells with different structures, including v...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
International audienceThe Indium Gallium Nitride (InGaN) III-Nitride ternary alloy has the potential...
Silicon solar cells are prevailing types in the commercial market due to their stability, robustness...
The InGaN ternary alloy has the potentiality to achieve high efficiency solar cells. Indeed the band...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
International audienceIn this paper, we have used simulations to evaluate the impact of the distribu...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
Increasing silicon solar cell efficiency plays a vital role in improving the dominant market share o...
International audienceOwing to its good tolerance to radiations, its high light absorption and its I...