Add to ORKGSymposium Y - Advanced materials and characterization techniques for solar cells II - Poster Session I: YP1 38The efficiency of multi-junction (MJ) solar cells can be significantly enhanced with the wider coverage of the solar spectrum and higher conversion. Time resolved optical spectroscopy is a powerful tool for optical study in semiconductor industry and for the measurement of time constants of physical processes such as absorption or emission of a given material. In this work, we report on the measurement of the time-resolved spectroscopy of the GaxIn1-xPGaAs double-junction photovoltaic structures under different conditions of temperature and reverse bias voltage by using laser pulses as the excitation source and attempt to obtain som...
The spatial homogeneity of GaAs solar cells was investigated by picosecond luminescence spectroscopy...
In-situ characterization is one of the most powerful techniques to improve material quality and devi...
The analysis of the subcell performance is crucial to understand the device physics and achieve opti...
Semiconductor multijunction solar cell is a cutting-edge photovoltaic technology aimed at developing...
The recent achievement of multi-junctions solar cells, based on III-V semiconductors, exceeding 43% ...
Time resolved photoluminescence (TRPL) is a powerful method to character the behaviors of carriers a...
A complete characterization of solar energy conversion devices and the processes underlying their fu...
This thesis presents a novel method to quantify the localised carrier collection efficiency of thin ...
The development of multi-junctions III-V semiconductors solar cells, that combine high conversion ef...
This work presents the development of a measurement system which combines optical and electrical cha...
The time-resolved photoluminescence (TRPL) technique and its ability to characterize recombination i...
Organic solar cells made of polymers are an attractive alternative to the conventional solar cells w...
Radiative recombination of carriers in two kinds of GaxIn1-xP/GaAs double-junction tandem solar cell...
Symposium: Y - Advanced materials and characterization techniques for solar cells - Poster Session: ...
The open circuit voltage of a single subcell in a multijunction cell stack can be measured with the ...
The spatial homogeneity of GaAs solar cells was investigated by picosecond luminescence spectroscopy...
In-situ characterization is one of the most powerful techniques to improve material quality and devi...
The analysis of the subcell performance is crucial to understand the device physics and achieve opti...
Semiconductor multijunction solar cell is a cutting-edge photovoltaic technology aimed at developing...
The recent achievement of multi-junctions solar cells, based on III-V semiconductors, exceeding 43% ...
Time resolved photoluminescence (TRPL) is a powerful method to character the behaviors of carriers a...
A complete characterization of solar energy conversion devices and the processes underlying their fu...
This thesis presents a novel method to quantify the localised carrier collection efficiency of thin ...
The development of multi-junctions III-V semiconductors solar cells, that combine high conversion ef...
This work presents the development of a measurement system which combines optical and electrical cha...
The time-resolved photoluminescence (TRPL) technique and its ability to characterize recombination i...
Organic solar cells made of polymers are an attractive alternative to the conventional solar cells w...
Radiative recombination of carriers in two kinds of GaxIn1-xP/GaAs double-junction tandem solar cell...
Symposium: Y - Advanced materials and characterization techniques for solar cells - Poster Session: ...
The open circuit voltage of a single subcell in a multijunction cell stack can be measured with the ...
The spatial homogeneity of GaAs solar cells was investigated by picosecond luminescence spectroscopy...
In-situ characterization is one of the most powerful techniques to improve material quality and devi...
The analysis of the subcell performance is crucial to understand the device physics and achieve opti...