Add to ORKGModifications were made to the process sequence until a device capable of high performance and satisfactory processing yields could be fabricated on a production line. Pilot production resulted in a 2 x 4 cm screen printed dielectric wraparound contact solar cell with average 28 C, Air Mass Zero (AMO) conversion efficiencies of 14.2% and reasonable process yields. This high performance was obtained with two different back contact configurations, making the device acceptable for many applications
A development program to produce large-area (5.9 x 5.9 cm) space quality silicon solar cells with a ...
A process sequence for a large area ( or = 25 sq. cm) silicon solar cell was investigated. Generic c...
The objective of this program is to develop high rate, energy efficient solar cell processing techni...
Work is reported on the development and production of 1,000 N+/P wraparound solar cells of two diffe...
Shallow junctions, aluminum back surface fields and tantalum pentoxide (Ta205) antireflection coatin...
The development of a process for fabricating 2 x 4 cm back surface field silicon solar cells having ...
A process for fabricating 2 to 3 mil wraparound solar cells was formulated. Sample thin wraparound c...
The process for producing space qualified solar cells in both the conventional and wraparound config...
Solar cells with wraparound contacts provide the following advantages in array assembly: (1) elimina...
This report describes the development of large area high efficiency wrapthrough solar cells for Spac...
Radiation-resistant modularization techniques for development of wrap-around solar cell - fabricatio...
Ten ohm-cm silicon solar cells, 0.2 mm thick, were produced with short circuit current efficiencies ...
High efficiency, large area and low cost solar cells are the drivers for Space Station solar array d...
High efficiency solar cells required for the low cost modules was developed. The production tooling ...
Work was performed to define and apply processes which could lead to high output from thin (2-8 mils...
A development program to produce large-area (5.9 x 5.9 cm) space quality silicon solar cells with a ...
A process sequence for a large area ( or = 25 sq. cm) silicon solar cell was investigated. Generic c...
The objective of this program is to develop high rate, energy efficient solar cell processing techni...
Work is reported on the development and production of 1,000 N+/P wraparound solar cells of two diffe...
Shallow junctions, aluminum back surface fields and tantalum pentoxide (Ta205) antireflection coatin...
The development of a process for fabricating 2 x 4 cm back surface field silicon solar cells having ...
A process for fabricating 2 to 3 mil wraparound solar cells was formulated. Sample thin wraparound c...
The process for producing space qualified solar cells in both the conventional and wraparound config...
Solar cells with wraparound contacts provide the following advantages in array assembly: (1) elimina...
This report describes the development of large area high efficiency wrapthrough solar cells for Spac...
Radiation-resistant modularization techniques for development of wrap-around solar cell - fabricatio...
Ten ohm-cm silicon solar cells, 0.2 mm thick, were produced with short circuit current efficiencies ...
High efficiency, large area and low cost solar cells are the drivers for Space Station solar array d...
High efficiency solar cells required for the low cost modules was developed. The production tooling ...
Work was performed to define and apply processes which could lead to high output from thin (2-8 mils...
A development program to produce large-area (5.9 x 5.9 cm) space quality silicon solar cells with a ...
A process sequence for a large area ( or = 25 sq. cm) silicon solar cell was investigated. Generic c...
The objective of this program is to develop high rate, energy efficient solar cell processing techni...