Add to ORKGThe n-Pasha n-type silicon solar cell currently achieves an average conversion efficiency of 20.2% using a relatively simple process flow. This bifacial cell concept developed by ECN is based on homogeneously doped p+ front and n+ back surfaces. To enhance the cell efficiency, it is important to reduce the carrier recombination within the boron-diffused p+ region and at its surface. This paper addresses a novel way to tune the boron-doping profile and presents advanced surface passivation schemes. In particular, it is demonstrated that a very thin (2nm) Al2O3 interlayer improves the passivation of the boron-doped surface; the Al2O3 films were deposited in industrial atomic layer deposition (ALD) reactors (batch or spatial). Moreover, it is ...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
In this work we combine the firing stable Al2O3 passivation of a boron emitter with an industrially ...
In order to utilize the full potential of solar cells fabricated on n-type silicon, it is necessary ...
The n-Pasha n-type silicon solar cell currently achieves an average conversion efficiency of 20.2% u...
The n-Pasha n-type silicon solar cell currently achieves an average conversion efficiency of 20.2% u...
The n-Pasha n-type silicon solar cell currently achieves an average conversion efficiency of 20.2% u...
Thin layers of aluminum oxide (Al2O3) are highly relevant for various high-efficiency silicon solar ...
In order to utilize the full potential of solar cells fabricated on n-type silicon, it is necessary ...
An effective passivation on the front side boron emitter is essential to utilize the full potential ...
Recently, we presented an industrially feasible passivation and contacting scheme for the front side...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
AbstractRecently, we presented an industrially feasible passivation and contacting scheme for the fr...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
In this work we combine the firing stable Al2O3 passivation of a boron emitter with an industrially ...
In order to utilize the full potential of solar cells fabricated on n-type silicon, it is necessary ...
The n-Pasha n-type silicon solar cell currently achieves an average conversion efficiency of 20.2% u...
The n-Pasha n-type silicon solar cell currently achieves an average conversion efficiency of 20.2% u...
The n-Pasha n-type silicon solar cell currently achieves an average conversion efficiency of 20.2% u...
Thin layers of aluminum oxide (Al2O3) are highly relevant for various high-efficiency silicon solar ...
In order to utilize the full potential of solar cells fabricated on n-type silicon, it is necessary ...
An effective passivation on the front side boron emitter is essential to utilize the full potential ...
Recently, we presented an industrially feasible passivation and contacting scheme for the front side...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
AbstractRecently, we presented an industrially feasible passivation and contacting scheme for the fr...
A p+-doping method for silicon solar cells is presented whereby boron atoms from a pure boron (PureB...
In this work we combine the firing stable Al2O3 passivation of a boron emitter with an industrially ...
In order to utilize the full potential of solar cells fabricated on n-type silicon, it is necessary ...