Add to ORKGInterdigitated back contact solar cells are made by screen printing dopant materials onto the back surface of a semiconductor substrate in a pair of interdigitated patterns. These dopant materials are then diffused into the substrate to form junctions having configurations corresponding to these patterns. Contacts having configurations which match the patterns are then applied over the junctions
The cost of silicon material accounts for approximately 61% of today's solar cell cost and 30% to 40...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The process for producing space qualified solar cells in both the conventional and wraparound config...
AbstractWe report results on the development of a cost-effective all-screen-printed interdigitated b...
AbstractWe present the first laser doped screen-printed back contact silicon solar cells with an eff...
AbstractIn this work, the fabrication of an interdigitated back contact solar cell is investigated o...
The type of coplanar back contact solar cell described was constructed with interdigitated n(+) and ...
The process of making Interdigitated Back Contact (IBC) solar cell is implemented by a novel simplif...
Thin crystalline silicon layers deposited on inexpensive substrates present a promising approach to ...
Presented at the 4th World Conference on Photovoltaic Energy Conversion; Hawaii, USA; May 7-12, 2006...
AbstractBack-contact back-junction solar cell has the potential for high efficiency energy conversio...
This paper describes our investigations on the formation of back contacts in screen-printed solar ce...
The development of a process for fabricating 2 x 4 cm back surface field silicon solar cells having ...
A thin silicon solar cell having a back dielectric passivation and rear contact with local back surf...
This paper proposes a novel concept for integrating ultrathin solar cells into modules. It is concei...
The cost of silicon material accounts for approximately 61% of today's solar cell cost and 30% to 40...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The process for producing space qualified solar cells in both the conventional and wraparound config...
AbstractWe report results on the development of a cost-effective all-screen-printed interdigitated b...
AbstractWe present the first laser doped screen-printed back contact silicon solar cells with an eff...
AbstractIn this work, the fabrication of an interdigitated back contact solar cell is investigated o...
The type of coplanar back contact solar cell described was constructed with interdigitated n(+) and ...
The process of making Interdigitated Back Contact (IBC) solar cell is implemented by a novel simplif...
Thin crystalline silicon layers deposited on inexpensive substrates present a promising approach to ...
Presented at the 4th World Conference on Photovoltaic Energy Conversion; Hawaii, USA; May 7-12, 2006...
AbstractBack-contact back-junction solar cell has the potential for high efficiency energy conversio...
This paper describes our investigations on the formation of back contacts in screen-printed solar ce...
The development of a process for fabricating 2 x 4 cm back surface field silicon solar cells having ...
A thin silicon solar cell having a back dielectric passivation and rear contact with local back surf...
This paper proposes a novel concept for integrating ultrathin solar cells into modules. It is concei...
The cost of silicon material accounts for approximately 61% of today's solar cell cost and 30% to 40...
A Simple way to improve solar cell efficiency is to enhance the absorption of light and reduce the s...
The process for producing space qualified solar cells in both the conventional and wraparound config...