The electrical/structural characterization and simulation of III-N materials for detectors and solar cells are presented, first in a synthetic way then in detail for two specific aspects. For boron gallium nitride (BGaN), the studies revealed the possibility of significantly reducing non-intentional doping in III-N materials, one of the main issues for applications. The second aspect detailed in the memoir concerns the simulation of indium gallium nitride (InGaN) solar cells using, for the first time in this domain, rigorous mathematical optimization methods. This methodology allowed to propose new structures not requiring P-doping, another issue in III-N materials, and to study multijunction structures taking into account technological con...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
The InGaN ternary alloy has the potentiality to achieve high efficiency solar cells. Indeed the band...
The electrical/structural characterization and simulation of III-N materials for detectors and solar...
In recent years, Gallium Indium Nitride (InGaN) alloy has become a semiconductor of choice for the r...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
Among III-V nitrides, the InGaN material has intensively been studied since the year 2000 for photov...
International audienceThe Indium Gallium Nitride (InGaN) III-Nitride ternary alloy has the potential...
Ce travail s’inscrit dans le cadre du développement de nouvelles applications des matériaux III-Nitr...
Chapter one is an introductory chapter defining some basic physics that areimportant to solar cells a...
Indium gallium nitride (InGaN) alloys, are a promising candidate for high-efficiency solar applicati...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
Long format oral presentationChair of Session I: Nanomaterials Fabrication / Synthesis in Nanotech F...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
The InGaN ternary alloy has the potentiality to achieve high efficiency solar cells. Indeed the band...
The electrical/structural characterization and simulation of III-N materials for detectors and solar...
In recent years, Gallium Indium Nitride (InGaN) alloy has become a semiconductor of choice for the r...
L’alliage de Nitrure de Gallium et d’Indium (InGaN) est devenu au cours des dernières années un semi...
Among III-V nitrides, the InGaN material has intensively been studied since the year 2000 for photov...
International audienceThe Indium Gallium Nitride (InGaN) III-Nitride ternary alloy has the potential...
Ce travail s’inscrit dans le cadre du développement de nouvelles applications des matériaux III-Nitr...
Chapter one is an introductory chapter defining some basic physics that areimportant to solar cells a...
Indium gallium nitride (InGaN) alloys, are a promising candidate for high-efficiency solar applicati...
International audienceNitride-based semiconductor materials are promising candidates for the manufac...
Long format oral presentationChair of Session I: Nanomaterials Fabrication / Synthesis in Nanotech F...
International audienceOn the road towards next generation high efficiency solar cells, the ternary I...
As our global energy expenditure increases exponentially, it is apparent that renewable energy solut...
The InGaN ternary alloy has the potentiality to achieve high efficiency solar cells. Indeed the band...