In this CRADA NREL will modify/develop metallization inks that are compatible with 1366 Technologies technology. Various methods of deposition will be used to apply the inks to the textured silicon substrates. The goal of the project is to minimize the contact resistance while maximizing the cell efficiency
This Ph.D. thesis is focused on the development and optimization of front and rear side metallizatio...
In this paper lead-free silver ink for the front side metallization of silicon solar cells is invest...
The buried base contact (BBC) concept represents a simple industrially feasible scheme for metallizi...
This document describes the statement of work for National Renewable Energy Laboratory (NREL) as a s...
The work under the proposed CRADA will be a joint effort by BP Solar and NREL to develop new types o...
The purpose of this CRADA was to combine the strengths of NREL and Evergreen Solar in the area of in...
The success of printing technology in the electronics industry primarily depends on the availability...
The success of printing technology in the electronics industry primarily depends on the availability...
A critical step in the fabrication of integrated circuits is the deposition of metal layers which in...
AbstractWe synthesize and investigate a lead- and particle-free metal-organic ink based on silver sa...
This study presents a new developed, inline applicable dispensing platform that is equipped with an ...
The present work gives an overview of the activities in multi-step front side metallization for crys...
The objective of this report is to develop inkjet printing (including tools, inks, and processing co...
A new technique for the front side metallization of silicon solar cells is presented, based on the i...
Silver is the most expensive non-silicon component in photovoltaic cells. This is particularly salie...
This Ph.D. thesis is focused on the development and optimization of front and rear side metallizatio...
In this paper lead-free silver ink for the front side metallization of silicon solar cells is invest...
The buried base contact (BBC) concept represents a simple industrially feasible scheme for metallizi...
This document describes the statement of work for National Renewable Energy Laboratory (NREL) as a s...
The work under the proposed CRADA will be a joint effort by BP Solar and NREL to develop new types o...
The purpose of this CRADA was to combine the strengths of NREL and Evergreen Solar in the area of in...
The success of printing technology in the electronics industry primarily depends on the availability...
The success of printing technology in the electronics industry primarily depends on the availability...
A critical step in the fabrication of integrated circuits is the deposition of metal layers which in...
AbstractWe synthesize and investigate a lead- and particle-free metal-organic ink based on silver sa...
This study presents a new developed, inline applicable dispensing platform that is equipped with an ...
The present work gives an overview of the activities in multi-step front side metallization for crys...
The objective of this report is to develop inkjet printing (including tools, inks, and processing co...
A new technique for the front side metallization of silicon solar cells is presented, based on the i...
Silver is the most expensive non-silicon component in photovoltaic cells. This is particularly salie...
This Ph.D. thesis is focused on the development and optimization of front and rear side metallizatio...
In this paper lead-free silver ink for the front side metallization of silicon solar cells is invest...
The buried base contact (BBC) concept represents a simple industrially feasible scheme for metallizi...
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