Add to ORKGAlternative solution-based techniques such as aerosol jet printing offer the dual benefits of contactless pattern deposition and high material utilization. We have used aerosol jet printing to investigate non-contact printed Al metal ink as a replacement for screen printed Al back contacts on wafer Si solar cells. This particle-based ink can be prepared at high loadings of 60 weight % metal, which enables rapid deposition of 1 - 10 um thick lines. Al lines printed on Si wafers and heated between 550 and 800 degrees C form low resistance contacts suitable for current extraction. The effectiveness of these printed Al back contacts has further been demonstrated by incorporating them into a series of 21 cm2 crystalline Si solar cells that produ...
In this paper lead-free silver ink for the front side metallization of silicon solar cells is invest...
Ag, Cu, and Ni metallizations were inkjet printed with near vacuum deposition quality. The approach ...
AbstractIn this paper we study the potential of seed and plate front side metallization using inkjet...
A new technique for the front side metallization of silicon solar cells is presented, based on the i...
Front side contacts on silicon solar cells were printed with a metal aerosol jet system using highly...
With about 125,000 terawatts of solar power striking the earth at any given moment, solar energy may...
The objective of this report is to develop inkjet printing (including tools, inks, and processing co...
The rheology of a low viscous aerosol ink was modified into a hot melt ink by substituting the origi...
We report on our project to develop inkjet printable contacts for solar cells. Ag, Cu, and Ni metall...
A lean process route for the contact separation of back-contact solar cells is presented in this art...
In this work we demonstrate a new selective metallization technique to perform localized plating on ...
For printing the front side metallization of solar cells using the non-contact aerosol printer diffe...
Ag, Cu, and Ni metallizations were inkjet printed with near vacuum deposition quality. The approach ...
This document describes the statement of work for National Renewable Energy Laboratory (NREL) as a s...
WO 2009071145 A2 UPAB: 20090629 NOVELTY - The method involves atomizing a hot-melt aerosol ink by an...
In this paper lead-free silver ink for the front side metallization of silicon solar cells is invest...
Ag, Cu, and Ni metallizations were inkjet printed with near vacuum deposition quality. The approach ...
AbstractIn this paper we study the potential of seed and plate front side metallization using inkjet...
A new technique for the front side metallization of silicon solar cells is presented, based on the i...
Front side contacts on silicon solar cells were printed with a metal aerosol jet system using highly...
With about 125,000 terawatts of solar power striking the earth at any given moment, solar energy may...
The objective of this report is to develop inkjet printing (including tools, inks, and processing co...
The rheology of a low viscous aerosol ink was modified into a hot melt ink by substituting the origi...
We report on our project to develop inkjet printable contacts for solar cells. Ag, Cu, and Ni metall...
A lean process route for the contact separation of back-contact solar cells is presented in this art...
In this work we demonstrate a new selective metallization technique to perform localized plating on ...
For printing the front side metallization of solar cells using the non-contact aerosol printer diffe...
Ag, Cu, and Ni metallizations were inkjet printed with near vacuum deposition quality. The approach ...
This document describes the statement of work for National Renewable Energy Laboratory (NREL) as a s...
WO 2009071145 A2 UPAB: 20090629 NOVELTY - The method involves atomizing a hot-melt aerosol ink by an...
In this paper lead-free silver ink for the front side metallization of silicon solar cells is invest...
Ag, Cu, and Ni metallizations were inkjet printed with near vacuum deposition quality. The approach ...
AbstractIn this paper we study the potential of seed and plate front side metallization using inkjet...