Add to ORKGA thin silicon solar cell having a back dielectric passivation and rear contact with local back surface field is described. Specifically, the solar cell may be fabricated from a crystalline silicon wafer having a thickness from 50 to 500 micrometers. A barrier layer and a dielectric layer are applied at least to the back surface of the silicon wafer to protect the silicon wafer from deformation when the rear contact is formed. At least one opening is made to the dielectric layer. An aluminum contact that provides a back surface field is formed in the opening and on the dielectric layer. The aluminum contact may be applied by screen printing an aluminum paste having from one to 12 atomic percent silicon and then applying a heat treatment at ...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The industrial production of bulk silicon solar cells with high efficiency brings advantages as more...
Surface passivation continues to be a significant requirement in achieving high solar-cell efficienc...
A thin silicon solar cell having a back dielectric passivation and rear contact with local back surf...
We present a detailed study on the rear contact formation of rear-surface-passivated silicon solar c...
Crystalline silicon solar cells are currently the leading technology in the photovoltaic market with...
DE 102009011305 A1 UPAB: 20100925 NOVELTY - The method involves partially coating a rear side of a s...
Recently, a novel easy-to-fabricate passivated rear contact structure has been developed at ISFH. Si...
The operating efficiency of commercial p-type silicon solar cells has been greatly improved in recen...
Silicon solar cells with dielectric passivation layers need enhanced rear surface treatment. In this...
Abstract: Surface recombination loss should be reduced for high efficiency of solar cells. To reduce...
Artículo de publicación ISICrystalline silicon solar cells are currently the leading technology in t...
We will describe a solar cell with a Dielektrikumdoppelschicht and a method for their preparation. I...
Continuous cost reduction of silicon-based solar cells is needed to lower the process time and incre...
AbstractAluminium local back surface field (Al-LBSF) cells are currently being investigated for the ...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The industrial production of bulk silicon solar cells with high efficiency brings advantages as more...
Surface passivation continues to be a significant requirement in achieving high solar-cell efficienc...
A thin silicon solar cell having a back dielectric passivation and rear contact with local back surf...
We present a detailed study on the rear contact formation of rear-surface-passivated silicon solar c...
Crystalline silicon solar cells are currently the leading technology in the photovoltaic market with...
DE 102009011305 A1 UPAB: 20100925 NOVELTY - The method involves partially coating a rear side of a s...
Recently, a novel easy-to-fabricate passivated rear contact structure has been developed at ISFH. Si...
The operating efficiency of commercial p-type silicon solar cells has been greatly improved in recen...
Silicon solar cells with dielectric passivation layers need enhanced rear surface treatment. In this...
Abstract: Surface recombination loss should be reduced for high efficiency of solar cells. To reduce...
Artículo de publicación ISICrystalline silicon solar cells are currently the leading technology in t...
We will describe a solar cell with a Dielektrikumdoppelschicht and a method for their preparation. I...
Continuous cost reduction of silicon-based solar cells is needed to lower the process time and incre...
AbstractAluminium local back surface field (Al-LBSF) cells are currently being investigated for the ...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The industrial production of bulk silicon solar cells with high efficiency brings advantages as more...
Surface passivation continues to be a significant requirement in achieving high solar-cell efficienc...