Add to ORKGPlating of a Ni-Cu stack on laser-structured passivation layer openings is a low-cost metallization approach for silicon solar cells. This work investigates the correlation of microscopic interface properties and contact resistance and mechanical adhesion. Advanced micro characterization methods are applied. Based on the results a model is introduced on how to realize adhesion. The results indicate an important influence of interfacial oxide on the contact resistance and its decrease during post-plating annealing
In this paper, a two-layer metallization for silicon based solar cells is presented. The metallizati...
AbstractThis study focuses on the electrochemical Ni/Cu metallization of multi-crystalline silicon (...
In the context of nickel silicide formation from plated nickel layers for solar cell metallization, ...
Light-induced plating of a Ni-Cu-Ag stack allows for high efficient and potentially low cost solar c...
AbstractAn improved understanding of the interface situation between metal and laser-structured semi...
An improved understanding of the interface situation between metal and laser-structured semiconducto...
Investigating modifications of the silicon/metal interface during the manufacturing process and the ...
AbstractPlated Ni/Cu/Ag contacts are an industrially feasible metallization approach for high effici...
AbstractPlated Ni/Cu/Ag contacts are an industrially feasible metallization approach for high effici...
One of the key topics for industrial implementation of fully plated NiCu contacts on Si solar cells ...
For low cost high efficiency fully plated NiCu contacts on silicon solar cells, a thermal formation ...
International audienceTo meet future energy demand and limit global warming, researchers and industr...
International audienceThis study focuses on the electrochemical Ni/Cu metallization of multi-crystal...
International audienceTo meet future energy demand and limit global warming, researchers and industr...
An evolutionary approach to increase the cell efficiency of the industrially widely used Al-BSF Si s...
In this paper, a two-layer metallization for silicon based solar cells is presented. The metallizati...
AbstractThis study focuses on the electrochemical Ni/Cu metallization of multi-crystalline silicon (...
In the context of nickel silicide formation from plated nickel layers for solar cell metallization, ...
Light-induced plating of a Ni-Cu-Ag stack allows for high efficient and potentially low cost solar c...
AbstractAn improved understanding of the interface situation between metal and laser-structured semi...
An improved understanding of the interface situation between metal and laser-structured semiconducto...
Investigating modifications of the silicon/metal interface during the manufacturing process and the ...
AbstractPlated Ni/Cu/Ag contacts are an industrially feasible metallization approach for high effici...
AbstractPlated Ni/Cu/Ag contacts are an industrially feasible metallization approach for high effici...
One of the key topics for industrial implementation of fully plated NiCu contacts on Si solar cells ...
For low cost high efficiency fully plated NiCu contacts on silicon solar cells, a thermal formation ...
International audienceTo meet future energy demand and limit global warming, researchers and industr...
International audienceThis study focuses on the electrochemical Ni/Cu metallization of multi-crystal...
International audienceTo meet future energy demand and limit global warming, researchers and industr...
An evolutionary approach to increase the cell efficiency of the industrially widely used Al-BSF Si s...
In this paper, a two-layer metallization for silicon based solar cells is presented. The metallizati...
AbstractThis study focuses on the electrochemical Ni/Cu metallization of multi-crystalline silicon (...
In the context of nickel silicide formation from plated nickel layers for solar cell metallization, ...