Your search keyword '"P. Desrues"' showing total 2 results

1. TCO-free Low-temperature p+ Emitters for Back-junction c-Si Solar Cells.

Author

Martín, Isidro, Coll, Arnau, López, Gema, Ortega, Pablo R., Desrues, Thibaut, Orpella, Albert, and Alcubilla, Ramón

Abstract

In this work, we report on the fabrication and characterization of n-type c-Si solar cells whose p + emitters are based on laser processed aluminum oxide/silicon carbide (Al 2 O 3 /SiC x ) films. The p + emitter is defined at the rear side of the cell and it consists of point-like laser-diffused p + regions with a surface charge induced emitter in between based on the high negative charge located at the Al 2 O 3 /c-Si interface. These emitters are fabricated at low temperature (< 400 °C) and could be directly compared to silicon heterojunction emitters with the advantage that the deposition of a Transparent Conductive Oxide (TCO) film can be avoided, since they are based on p + /n c-Si homojunctions. Additionally, the involved films are transparent to the IR photons ( >1000 nm) that reach the rear surface of the cell resulting in an excellent back reflector. We fabricated solar cells with distance between p + regions or pitch ranging from 200 to 350 μm with a front surface based on silicon heterojunction technology. Best efficiency (18.1%) is obtained for a pitch of 250 μm as a consequence of the trade-off between V oc and FF values. [ABSTRACT FROM AUTHOR]

Published

2015

2. TCO-free low-temperature p+ emitters for back-junction c-Si solar cells.

Author

Martín, Isidro, Coll, Arnau, López, Gema, Ortega, Pablo R., Desrues, Thibaut, Orpella, Albert, and Alcubilla, Ramón

Abstract

In this work, we report on the fabrication and characterization of n-type c-Si solar cells whose p+ emitters are based on laser processed aluminum oxide/silicon carbide (Al2O3/SiCx) films. The p+ emitter is defined at the rear side of the cell and it consists of point-like laser-diffused p+ regions with a surface charge induced emitter in between based on the high negative charge located at the Al2O3/c-Si interface. These emitters are fabricated at low temperature (< 400 °C) and could be directly compared to silicon heterojunction emitters with the advantage that the deposition of a Transparent Conductive Oxide (TCO) film can be avoided, since they are based on p+/n c-Si homojunctions. Additionally, the involved films are transparent to the IR photons (◻ >1000 nm) that reach the rear surface of the cell resulting in an excellent back reflector. We fabricated solar cells with distance between p+ regions or pitch ranging from 200 to 350 μm with a front surface based on silicon heterojunction technology. Best efficiency (18.1 %) is obtained for a pitch of 250 μm as a consequence of the trade-off between Voc and FF values. [ABSTRACT FROM AUTHOR]

Published

2015