Add to ORKGThis paper presents the recent advances in semiconductor alloys for photovoltaic applications. The two main growth techniques involved in these compounds are metal organic chemical vapor deposition (MOCVD) and molecular beam epitaxy (MBE), that has also been discussed. With these techniques, hetero-structures can be grown with a high efficiency. A combination of more than one semiconductor like GaAs, InGaAs and CuInGaAs increases the range of their electrical and optical properties. A large range of direct band gap, high optical absorption and emission coefficients make these materials optimally suitable for converting the light to electrical energy. Their electronic structures reveal that they are highly suitable for photovoltaic applicati...
In conventional solar cell semiconductor materials (predominantlySi)photons with energy higher than ...
Photovoltaic energy conversion represents a economically viable technology for realizing collection ...
Efficient utilization of the full solar spectrum extending from near infrared to ultraviolet is one ...
This paper presents the recent advances in semiconductor alloys for photovoltaic applications. The t...
In this work it is shown that high quality GaAs photovoltaic devices can be produced by Molecular Be...
A new technique for epitaxial growth of thin semiconductor films, molecular beam epitaxy (MBE), prov...
[[abstract]]Molecular beam epitaxy (MBE) is a highly precise and versatile crystal growth technique....
The article gives an overview of the results of investigations carried out at the Institute of Appli...
International audienceHere, we discuss the recent developments toward efficient GaP/Si-based photovo...
The use of solar energy is currently the best solution to the world energy problem and in particular...
Molecular Beam Epitaxy introduces the reader to the use of molecular beam epitaxy (MBE) in the gener...
A new Molecular Beam Epitaxy system that can be pumped down to 10-11torr is set up. The ultra high v...
In this dissertation, I discuss the electronic and optical properties of materials for energy-relate...
We report results in three areas of research relevant to the fabrication of monolithic multi-junctio...
The technological development of semiconductor materials started in the period following the second ...
In conventional solar cell semiconductor materials (predominantlySi)photons with energy higher than ...
Photovoltaic energy conversion represents a economically viable technology for realizing collection ...
Efficient utilization of the full solar spectrum extending from near infrared to ultraviolet is one ...
This paper presents the recent advances in semiconductor alloys for photovoltaic applications. The t...
In this work it is shown that high quality GaAs photovoltaic devices can be produced by Molecular Be...
A new technique for epitaxial growth of thin semiconductor films, molecular beam epitaxy (MBE), prov...
[[abstract]]Molecular beam epitaxy (MBE) is a highly precise and versatile crystal growth technique....
The article gives an overview of the results of investigations carried out at the Institute of Appli...
International audienceHere, we discuss the recent developments toward efficient GaP/Si-based photovo...
The use of solar energy is currently the best solution to the world energy problem and in particular...
Molecular Beam Epitaxy introduces the reader to the use of molecular beam epitaxy (MBE) in the gener...
A new Molecular Beam Epitaxy system that can be pumped down to 10-11torr is set up. The ultra high v...
In this dissertation, I discuss the electronic and optical properties of materials for energy-relate...
We report results in three areas of research relevant to the fabrication of monolithic multi-junctio...
The technological development of semiconductor materials started in the period following the second ...
In conventional solar cell semiconductor materials (predominantlySi)photons with energy higher than ...
Photovoltaic energy conversion represents a economically viable technology for realizing collection ...
Efficient utilization of the full solar spectrum extending from near infrared to ultraviolet is one ...