Add to ORKGThis work comprises fundamental studies of physical models for silicon solar cell simulation, development of cell specific simulation models, and comprehensive simulation studies covering the entire range of industrially relevant solar cell concepts. Key topics are: incomplete ionization in Al-doped Si, carrier-selective contacts based on tunnel oxides, temperature-dependent modeling, and the interplay of base material and cell architecture
Within the silicon photovoltaics (PV) community, there are many approaches, tools, and input paramet...
AbstractRecently, a variety of different n-type Si solar cells with carrier-selective contacts featu...
Quantitative analysis or numeric simulation on a cross-section of silicon devices offers many insigh...
The rapid development of novel solar cell concepts requires an accurate and reliable modeling to obt...
The improvement of solar cell efficiency requires device optimization, including the careful design ...
Recently, n-type Si solar cells featuring tunnel-oxide-passivated contacts have achieved remarkable ...
The general method to solve the transport equations for a solar cell is discussed. To obtain an accu...
This chapter contains sections titled: Introduction Selective Emitter Solar Cells: Simulat...
Recently, a variety of different n-type Si solar cells with carrier-selective contacts featuring tun...
The practical application of numerical device simulation in high efficiency silicon solar cell resea...
The one-dimensional numerical solution for a simple solar cell structure is discussed and compared w...
Novel concepts for crystalline silicon solar cells promise higher energy conversion efficiencies. In...
Abstract: Solar modules based on single crystal and polycrystalline silicon have al-most a 90 % shar...
The present work concerns the analysis of high-efficient silicon solar cells using experiments and m...
Solar cell production always requires a tradeoff between cell efficiency and production costs. This ...
Within the silicon photovoltaics (PV) community, there are many approaches, tools, and input paramet...
AbstractRecently, a variety of different n-type Si solar cells with carrier-selective contacts featu...
Quantitative analysis or numeric simulation on a cross-section of silicon devices offers many insigh...
The rapid development of novel solar cell concepts requires an accurate and reliable modeling to obt...
The improvement of solar cell efficiency requires device optimization, including the careful design ...
Recently, n-type Si solar cells featuring tunnel-oxide-passivated contacts have achieved remarkable ...
The general method to solve the transport equations for a solar cell is discussed. To obtain an accu...
This chapter contains sections titled: Introduction Selective Emitter Solar Cells: Simulat...
Recently, a variety of different n-type Si solar cells with carrier-selective contacts featuring tun...
The practical application of numerical device simulation in high efficiency silicon solar cell resea...
The one-dimensional numerical solution for a simple solar cell structure is discussed and compared w...
Novel concepts for crystalline silicon solar cells promise higher energy conversion efficiencies. In...
Abstract: Solar modules based on single crystal and polycrystalline silicon have al-most a 90 % shar...
The present work concerns the analysis of high-efficient silicon solar cells using experiments and m...
Solar cell production always requires a tradeoff between cell efficiency and production costs. This ...
Within the silicon photovoltaics (PV) community, there are many approaches, tools, and input paramet...
AbstractRecently, a variety of different n-type Si solar cells with carrier-selective contacts featu...
Quantitative analysis or numeric simulation on a cross-section of silicon devices offers many insigh...