International audienceOn the road towards next generation high efficiency solar cells, the ternary Indium Gallium Nitride (InGaN) alloy is a good passenger since it allows to cover the whole solar spectrum through the change in its Indium composition. The choice of the main structure of the InGaN solar cell is however crucial. Obtaining a high efficiency requires to improve the light absorption and the photogenerated carriers collection that depend on the layers parameters, including the Indium composition, p-and n-doping, device geometry.. . Unfortunately, one of the main drawbacks of InGaN is linked to its p-type doping, which is very difficult to realize since it involves complex technological processes that are difficult to master and t...
The impact of doping concentration and thickness of n-InGaN and p-InGaN regions on the power convers...
International audienceThe Indium Gallium Nitride (InGaN) alloy has the required potentialities to be...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
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...
Long format oral presentationChair of Session I: Nanomaterials Fabrication / Synthesis in Nanotech F...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
Choosing the Indium Gallium Nitride (InGaN) ternary alloy for thin films solar cells might yield hig...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
In recent years, Gallium Indium Nitride (InGaN) alloy has become a semiconductor of choice for the r...
The Indium Gallium Nitride (InGaN) alloy has the required potentialities to be a material of choice ...
The impact of doping concentration and thickness of n-InGaN and p-InGaN regions on the power convers...
International audienceThe Indium Gallium Nitride (InGaN) alloy has the required potentialities to be...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
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...
Long format oral presentationChair of Session I: Nanomaterials Fabrication / Synthesis in Nanotech F...
The tunability of the InGaN band gap energy over a wide range provides a good spectral match to sunl...
Choosing the Indium Gallium Nitride (InGaN) ternary alloy for thin films solar cells might yield hig...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
In recent years, Gallium Indium Nitride (InGaN) alloy has become a semiconductor of choice for the r...
The Indium Gallium Nitride (InGaN) alloy has the required potentialities to be a material of choice ...
The impact of doping concentration and thickness of n-InGaN and p-InGaN regions on the power convers...
International audienceThe Indium Gallium Nitride (InGaN) alloy has the required potentialities to be...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...