ABSTRACT — In this work, we demonstrate a new scheme for realizing flexible double-junction InGaP/(In)GaAs tandem solar cells with very high specific power of ~2000W/kg at one sun intensity. The controlled spalling technique is employed because of its simplicity to separate the solar cell structure from the growth substrate. Furthermore, the entirety of the elements used for the layer transfer process is incorporated in the final device structure. The combination of our new integration scheme with the possibility of the substrate reuse offers a viable pathway to further reducing the processing cost associated with the fabrication of III-V solar cell devices. Furthermore, the strikingly high specific power of our devices makes them suitable ...
Organic solar cell technology bears the potential for high photovoltaic performance combined with tr...
The competition in the field of solar energy between Organic Photovoltaics (OPVs) and several Inorga...
We report a triple junction InGaP/GaAs/InGaNAs solar cell with efficiency of ~31% at AM0, 25 °C fabr...
In this paper, we discuss two new paradigms for enabling cost-effective III-V solar cell photovoltai...
There are many difficulties limiting the further development of monolithic multi-junction solar cell...
Solar Energy is a clean and abundant energy source that can help reduce reliance on fossil fuels aro...
An affinity for high performance solar cells in the space market, as well as the development of new ...
An analytical model is used to describe the electrical characteristics of a dual-junction tandem sol...
Organic solar cell technology bears the potential for high photovoltaic performance combined with tr...
We propose an InP-based upright five-junction (5J) solar cell structure for high conversion efficien...
Today's dominant photovoltaic technologies rely on single-junction devices, which are approaching th...
Optimizing any tandem solar cells design before making them experimentally is an important way of re...
The emerging field of stacked layers (double- and even multi-layers) in organic photovoltaic cells i...
A photovoltaics conversion efficiency of 46% at 508 suns concentration was recently demonstrated wit...
The efficiencies of the world record III V metamorphic triple junction 3J solar cells could be imp...
Organic solar cell technology bears the potential for high photovoltaic performance combined with tr...
The competition in the field of solar energy between Organic Photovoltaics (OPVs) and several Inorga...
We report a triple junction InGaP/GaAs/InGaNAs solar cell with efficiency of ~31% at AM0, 25 °C fabr...
In this paper, we discuss two new paradigms for enabling cost-effective III-V solar cell photovoltai...
There are many difficulties limiting the further development of monolithic multi-junction solar cell...
Solar Energy is a clean and abundant energy source that can help reduce reliance on fossil fuels aro...
An affinity for high performance solar cells in the space market, as well as the development of new ...
An analytical model is used to describe the electrical characteristics of a dual-junction tandem sol...
Organic solar cell technology bears the potential for high photovoltaic performance combined with tr...
We propose an InP-based upright five-junction (5J) solar cell structure for high conversion efficien...
Today's dominant photovoltaic technologies rely on single-junction devices, which are approaching th...
Optimizing any tandem solar cells design before making them experimentally is an important way of re...
The emerging field of stacked layers (double- and even multi-layers) in organic photovoltaic cells i...
A photovoltaics conversion efficiency of 46% at 508 suns concentration was recently demonstrated wit...
The efficiencies of the world record III V metamorphic triple junction 3J solar cells could be imp...
Organic solar cell technology bears the potential for high photovoltaic performance combined with tr...
The competition in the field of solar energy between Organic Photovoltaics (OPVs) and several Inorga...
We report a triple junction InGaP/GaAs/InGaNAs solar cell with efficiency of ~31% at AM0, 25 °C fabr...