Add to ORKGSeveral GaAs strain-balanced quantum well solar cells with different well composition and well number were investigated. A comprehensive characterisation with XRD, quantum efficiency as well as light and dark IV-measurements revealed the enhanced performance of such a design compared to a conventional bulk GaAs solar cell. The proper choice of well depth and strain compensation overcompensates the reduction in Voc by an increase in Jsc resulting in overall higher AMO conversion efficiencies for the strain-balanced quantum well solar cell approach
International audienceAbsolute electroluminescence and photoluminescence measurements have been carr...
Some years ago Multiple Quantum Wells (MQW) solar cells were introduced as an alternative to obtain ...
International audienceIn photovoltaic, multi quantum wells (MQW) allow to tailor the optical absorpt...
A model of strain balanced quantum well solar cells is presented, together with a high efficiency de...
The optical absorption of a p-i-n solar cell may be increased by incorporating quantum well layers i...
[EN] The band gap of the quantum well (QW) solar cell can be adapted to the incident spectral condit...
AbstractCurrent–voltage (I–V) characteristics together with spectral quantum efficiency (QE) measure...
Achieving optimal band-gap combinations of multi-junction solar cells at production level is the mos...
International audienceIn order to improve the solar cell efficiency, quantum multi-wells have been i...
In an attempt to find the optimum number of wells for maximum conversion efficiency a pair of otherw...
We examine the possibility of using gallium arsenide (GaAs) quantum wells, which have significantly ...
The efficiency of today's Ga0.5In0.5P/Ga0.99In0.01As/Ge triple-junction space solar cells can be imp...
Strain-balanced quantum well solar cells (SB-QWSCs) extend the photon absorption edge beyond that of...
International audienceHigh efficiency quantum well GaAs solar cells have been successfully applied i...
Multi Quantum Well Solar Cell is an advanced improvement of the conventional solar cell to overcome ...
International audienceAbsolute electroluminescence and photoluminescence measurements have been carr...
Some years ago Multiple Quantum Wells (MQW) solar cells were introduced as an alternative to obtain ...
International audienceIn photovoltaic, multi quantum wells (MQW) allow to tailor the optical absorpt...
A model of strain balanced quantum well solar cells is presented, together with a high efficiency de...
The optical absorption of a p-i-n solar cell may be increased by incorporating quantum well layers i...
[EN] The band gap of the quantum well (QW) solar cell can be adapted to the incident spectral condit...
AbstractCurrent–voltage (I–V) characteristics together with spectral quantum efficiency (QE) measure...
Achieving optimal band-gap combinations of multi-junction solar cells at production level is the mos...
International audienceIn order to improve the solar cell efficiency, quantum multi-wells have been i...
In an attempt to find the optimum number of wells for maximum conversion efficiency a pair of otherw...
We examine the possibility of using gallium arsenide (GaAs) quantum wells, which have significantly ...
The efficiency of today's Ga0.5In0.5P/Ga0.99In0.01As/Ge triple-junction space solar cells can be imp...
Strain-balanced quantum well solar cells (SB-QWSCs) extend the photon absorption edge beyond that of...
International audienceHigh efficiency quantum well GaAs solar cells have been successfully applied i...
Multi Quantum Well Solar Cell is an advanced improvement of the conventional solar cell to overcome ...
International audienceAbsolute electroluminescence and photoluminescence measurements have been carr...
Some years ago Multiple Quantum Wells (MQW) solar cells were introduced as an alternative to obtain ...
International audienceIn photovoltaic, multi quantum wells (MQW) allow to tailor the optical absorpt...