Add to ORKGWe solve the Maxwell equations to quantify the amount of photo-generation in Si solar cells consisting of arrays of wires instead of bulk thin-films. Published transmission and reflectance measurements suggest that an array of Si wires absorbs sunlight very effectively due to strong diffraction and scattering. However, a detailed theoretical understanding and quantification of the actual photo-generation is only in its initial stage. In our simulations, the geometrical parameters of the wires are synthesized by means of cluster simulations. Applying the finite element method, we are able to compute randomly aligned wires within manageable time limits and affordable computer capacity. We show that Si wires have strong photonic properties. Fo...
International audienceEffect of geometrical and structural parameters on the efficiency of the tande...
International audienceCoupled optical/electrical simulations have been performed on solar cells cons...
Efficient photovoltaic conversion of solar energy requires optimization of both light absorption and...
Solar cells based on arrays of CVD-grown Si nano- or micro-wires have attracted interest as potentia...
The improvement of solar cell efficiency requires device optimization, including the careful design ...
A novel structure for thin-film solar cells is simulated with the purpose of maximizing the absorpti...
International audienceDue to their nanostructured surface, nanowire-based solar cells are good candi...
Gains in photovoltaic cell efficiency have the potential to allow solar power to increasingly become...
Light management is important for improving the performance of thin-film solar cells. Advanced conce...
2013-12-01This thesis is about light-trapping in thin film silicon photovoltaic devices. Light-trapp...
Microwire solar cells have demonstrated promising optical and photovoltaic performance in arrays of ...
Multi-wire (MW) front-contact schemes represent a promising alternative to standard H-pattern struct...
Microwire solar cells have demonstrated promising optical and photovoltaic performance in arrays of ...
Solar cells have generated a lot of interest as a potential source of clean renewable energy for the...
International audienceEffect of geometrical and structural parameters on the efficiency of the tande...
International audienceCoupled optical/electrical simulations have been performed on solar cells cons...
Efficient photovoltaic conversion of solar energy requires optimization of both light absorption and...
Solar cells based on arrays of CVD-grown Si nano- or micro-wires have attracted interest as potentia...
The improvement of solar cell efficiency requires device optimization, including the careful design ...
A novel structure for thin-film solar cells is simulated with the purpose of maximizing the absorpti...
International audienceDue to their nanostructured surface, nanowire-based solar cells are good candi...
Gains in photovoltaic cell efficiency have the potential to allow solar power to increasingly become...
Light management is important for improving the performance of thin-film solar cells. Advanced conce...
2013-12-01This thesis is about light-trapping in thin film silicon photovoltaic devices. Light-trapp...
Microwire solar cells have demonstrated promising optical and photovoltaic performance in arrays of ...
Multi-wire (MW) front-contact schemes represent a promising alternative to standard H-pattern struct...
Microwire solar cells have demonstrated promising optical and photovoltaic performance in arrays of ...
Solar cells have generated a lot of interest as a potential source of clean renewable energy for the...
International audienceEffect of geometrical and structural parameters on the efficiency of the tande...
International audienceCoupled optical/electrical simulations have been performed on solar cells cons...
Efficient photovoltaic conversion of solar energy requires optimization of both light absorption and...