Add to ORKGPassivation of the crystalline silicon surface is central to the attainment of high-efficiency silicon solar cells and even more so as the silicon absorber is thinned. Moreover, the current predominantly high temperature processing of thin silicon wafers gives rise to defect migration-creation and thermal stresses in a typical multi-layered photovoltaic (PV) device. The development of a simple and effective low temperature passivation scheme would aid immensely in the synthesis of next generation low-cost high-efficiency thin silicon solar cells. This research proposes, investigates and demonstrates the efficacy of a novel low-temperature passivation scheme for crystalline silicon surface which consists of a facile grown native oxide (S...
To achieve efficiencies approaching the theoretical limit of 29.4% for industrially manufactured sol...
Carrier selective passivating contacts (CSPC) have proven to effectively curtail the recombination l...
By comparison of simultaneously processed solar cells, bifacial cells and contactless photoconductiv...
Passivation of the crystalline silicon surface is central to the attainment of high-efficiency silic...
Two different techniques for the electronic surface passivation of silicon solar cells, the plasma-e...
Presented at the 2nd World Conference on Photovoltaic Solar Energy Conversion; Vienna, Austria; July...
Passivation of silicon surfaces remains a critical factor in achieving high conversion efficiency in...
.In this work, we have investigated three different surface passivation technologies: classical ther...
High-efficiency silicon solar cells strongly rely on an effective reduction of charge carrier recomb...
Within the photovoltaic industry, a lot of research is done in order to minimize losses which are cr...
AbstractSubnanometer thin silicon oxide films, applied as interlayer between crystalline silicon abs...
Thin crystalline silicon (c-Si) solar cells are beneficial for reducing the materials cost, but requ...
Energy traps at the silicon surface originating from discontinuities in the lattice is detrimental t...
Energy traps at the silicon surface originating from discontinuities in the lattice is detrimental t...
In this work, three different surface passivation technologies are used: classical thermal oxidation...
To achieve efficiencies approaching the theoretical limit of 29.4% for industrially manufactured sol...
Carrier selective passivating contacts (CSPC) have proven to effectively curtail the recombination l...
By comparison of simultaneously processed solar cells, bifacial cells and contactless photoconductiv...
Passivation of the crystalline silicon surface is central to the attainment of high-efficiency silic...
Two different techniques for the electronic surface passivation of silicon solar cells, the plasma-e...
Presented at the 2nd World Conference on Photovoltaic Solar Energy Conversion; Vienna, Austria; July...
Passivation of silicon surfaces remains a critical factor in achieving high conversion efficiency in...
.In this work, we have investigated three different surface passivation technologies: classical ther...
High-efficiency silicon solar cells strongly rely on an effective reduction of charge carrier recomb...
Within the photovoltaic industry, a lot of research is done in order to minimize losses which are cr...
AbstractSubnanometer thin silicon oxide films, applied as interlayer between crystalline silicon abs...
Thin crystalline silicon (c-Si) solar cells are beneficial for reducing the materials cost, but requ...
Energy traps at the silicon surface originating from discontinuities in the lattice is detrimental t...
Energy traps at the silicon surface originating from discontinuities in the lattice is detrimental t...
In this work, three different surface passivation technologies are used: classical thermal oxidation...
To achieve efficiencies approaching the theoretical limit of 29.4% for industrially manufactured sol...
Carrier selective passivating contacts (CSPC) have proven to effectively curtail the recombination l...
By comparison of simultaneously processed solar cells, bifacial cells and contactless photoconductiv...