The primary objective of this modeling investigation is to optimize a multi-junction tandem device under the AM1.5G spectrum. Based on previous studies, GaAs and Ge cells, because of their energy band gaps, can be combined together to achieve high-efficiency double-junction devices. In this study, the top cell is made of GaAs (1.42 eV) while the bottom cell is made of Ge (0.66 eV). In order to avoid the losses and design constraints observed in two-terminal and four-terminal devices. In order to determine the optimal structure of the device, the top and bottom junctions were investigated and optimized with regard to the thicknesses . The optimum configuration of the device shows an efficiency of 32.07% under the AM1.5G spect...
One of the most promising technologies for electricity supply is photovoltaic (PV) solar energy conv...
SiGe materials on Si substrate are promising candidates to act as the bottom cell in a tandem struct...
InGaAsP InGaAs tandem solar cells U. Seidel, B.E. Sa amp; 287;ol, K. Schwarzburg, T. Hannappel Hah...
The primary objective of this modeling investigation is to optimize a multi-junction tand...
AbstractThe primary objective of this modeling investigation is to optimize a multijunction tandem d...
The development of the tunnel junction interconnect was key the first two-terminal monolithic, multi...
Different approaches have been made in order to reach higher efficiencies. Concepts for mult...
A theoretical conversion efficiency of 36.4% at 1000 suns concentration has been determined by means...
Optimizing any tandem solar cells design before making them experimentally is an important way of re...
An analytical model is used to describe the electrical characteristics of a dual-junction tandem sol...
AbstractDual junction tandem solar cells can harvest a broader range of incident photons from the so...
In our work, we have simulated and optimized solar cells based on the mechanically stacked system us...
Large area GaAs/Ge cells offer substantial promise for increasing the power output from existing sil...
Multi-junction solar cells based on III-V materials have achieved the highest efficiencies of any pr...
Theoretical efficiency has been calculated for three-junction series connected solar cell using air ...
One of the most promising technologies for electricity supply is photovoltaic (PV) solar energy conv...
SiGe materials on Si substrate are promising candidates to act as the bottom cell in a tandem struct...
InGaAsP InGaAs tandem solar cells U. Seidel, B.E. Sa amp; 287;ol, K. Schwarzburg, T. Hannappel Hah...
The primary objective of this modeling investigation is to optimize a multi-junction tand...
AbstractThe primary objective of this modeling investigation is to optimize a multijunction tandem d...
The development of the tunnel junction interconnect was key the first two-terminal monolithic, multi...
Different approaches have been made in order to reach higher efficiencies. Concepts for mult...
A theoretical conversion efficiency of 36.4% at 1000 suns concentration has been determined by means...
Optimizing any tandem solar cells design before making them experimentally is an important way of re...
An analytical model is used to describe the electrical characteristics of a dual-junction tandem sol...
AbstractDual junction tandem solar cells can harvest a broader range of incident photons from the so...
In our work, we have simulated and optimized solar cells based on the mechanically stacked system us...
Large area GaAs/Ge cells offer substantial promise for increasing the power output from existing sil...
Multi-junction solar cells based on III-V materials have achieved the highest efficiencies of any pr...
Theoretical efficiency has been calculated for three-junction series connected solar cell using air ...
One of the most promising technologies for electricity supply is photovoltaic (PV) solar energy conv...
SiGe materials on Si substrate are promising candidates to act as the bottom cell in a tandem struct...
InGaAsP InGaAs tandem solar cells U. Seidel, B.E. Sa amp; 287;ol, K. Schwarzburg, T. Hannappel Hah...