Producing electrical power with photovoltaic solar panels is very attractive as the sun constitutes an inexhaustible source of clean energy. However, in order to make it a better alternative to other energy sources, its drawbacks must be addressed. In particular, scientific research is very active to find technologies that increase the efficiency of the solar cells, or decrease their cost. Reducing the thickness of thin-film solar cells would serve this second objective by reducing the amount of material needed. It also paves the way towards third-generation solar cells, e.g. nanowire solar cells, because the effective lighttrapping techniques that are developed and implemented will be needed in those future devices. This master’s thesis ai...
Numerical simulation of optical absorption characteristics of gallium arsenide (GaAs) thin-film sola...
In recent years, there has been rapid development in the field of nanoscale light trapping for solar...
Light trapping methods could increase effective optical path length of light and hence the probabili...
Conventional photovoltaic devices are currently made from relatively thick semiconductor layers, sim...
The thesis is devoted to the development of novel broadband light-trapping structures based on regul...
This paper mainly focuses on increasing the conversion efficiency of GaAs solar cells by reducing th...
Summary: Recent trends in photovoltaics demand ever-thin solar cells to allow deployment in consumer...
One of the natural tendencies of photovoltaic technologies is the systematic reduction of the thickn...
We suggest a new type of efficient light-trapping structures for thin-film solar cells based on arra...
Reducing the absorber thickness is an attractive solution to decrease the production cost of solar c...
Photovoltaics is a sustainable and environmentally clean source of energy that has the potential to ...
The thesis reports on my doctoral studies in the field of light-trapping structure for planar multil...
This thesis explores ways to create highly efficient, thin-film solar cells. Both high short circuit...
Confining sunlight in a reduced volume of photovoltaic absorber offers new directions for high-effic...
DoctorThis thesis explores ways to design of nanostructured optical layers for efficient light trapp...
Numerical simulation of optical absorption characteristics of gallium arsenide (GaAs) thin-film sola...
In recent years, there has been rapid development in the field of nanoscale light trapping for solar...
Light trapping methods could increase effective optical path length of light and hence the probabili...
Conventional photovoltaic devices are currently made from relatively thick semiconductor layers, sim...
The thesis is devoted to the development of novel broadband light-trapping structures based on regul...
This paper mainly focuses on increasing the conversion efficiency of GaAs solar cells by reducing th...
Summary: Recent trends in photovoltaics demand ever-thin solar cells to allow deployment in consumer...
One of the natural tendencies of photovoltaic technologies is the systematic reduction of the thickn...
We suggest a new type of efficient light-trapping structures for thin-film solar cells based on arra...
Reducing the absorber thickness is an attractive solution to decrease the production cost of solar c...
Photovoltaics is a sustainable and environmentally clean source of energy that has the potential to ...
The thesis reports on my doctoral studies in the field of light-trapping structure for planar multil...
This thesis explores ways to create highly efficient, thin-film solar cells. Both high short circuit...
Confining sunlight in a reduced volume of photovoltaic absorber offers new directions for high-effic...
DoctorThis thesis explores ways to design of nanostructured optical layers for efficient light trapp...
Numerical simulation of optical absorption characteristics of gallium arsenide (GaAs) thin-film sola...
In recent years, there has been rapid development in the field of nanoscale light trapping for solar...
Light trapping methods could increase effective optical path length of light and hence the probabili...