International audienceThe Indium Gallium Nitride (InGaN) III-Nitride ternary alloy has the potentiality to allow achieving high efficiency solar cells through the tuning of its band gap by changing the Indium composition. It also counts among its advantages a relatively low effective mass, high carriers' mobility, a high absorption coefficient along with good radiation tolerance. However, the main drawback of InGaN is linked to its p-type doping, which is difficult to grow in good quality and on which ohmic contacts are difficult to realize. The Schottky solar cell is a good alternative to avoid the p-type doping of InGaN. In this report, a comprehensive numerical simulation, using mathematically rigorous optimization approach based on stat...
Long format oral presentationChair of Session I: Nanomaterials Fabrication / Synthesis in Nanotech F...
The Indium Gallium Nitride (InGaN) alloy has the required potentialities to be a material of choice ...
In recent years, Gallium Indium Nitride (InGaN) alloy has become a semiconductor of choice for the r...
International audienceThe Indium Gallium Nitride (InGaN) III-Nitride ternary alloy has the potential...
International audienceOwing to its good tolerance to radiations, its high light absorption and its I...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
Choosing the Indium Gallium Nitride (InGaN) ternary alloy for thin films solar cells might yield hig...
The InGaN ternary alloy has the potentiality to achieve high efficiency solar cells. Indeed the band...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
Indium gallium nitride (InGaN) alloys, are a promising candidate for high-efficiency solar applicati...
Long format oral presentationChair of Session I: Nanomaterials Fabrication / Synthesis in Nanotech F...
The Indium Gallium Nitride (InGaN) alloy has the required potentialities to be a material of choice ...
In recent years, Gallium Indium Nitride (InGaN) alloy has become a semiconductor of choice for the r...
International audienceThe Indium Gallium Nitride (InGaN) III-Nitride ternary alloy has the potential...
International audienceOwing to its good tolerance to radiations, its high light absorption and its I...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
Choosing the Indium Gallium Nitride (InGaN) ternary alloy for thin films solar cells might yield hig...
The InGaN ternary alloy has the potentiality to achieve high efficiency solar cells. Indeed the band...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
Indium gallium nitride (InGaN) alloys, are a promising candidate for high-efficiency solar applicati...
Long format oral presentationChair of Session I: Nanomaterials Fabrication / Synthesis in Nanotech F...
The Indium Gallium Nitride (InGaN) alloy has the required potentialities to be a material of choice ...
In recent years, Gallium Indium Nitride (InGaN) alloy has become a semiconductor of choice for the r...