Your search keyword '"Guy Beaucarne"' showing total 3 results

1. Passivation of a Metal Contact with a Tunneling Layer

Author

Loozen, X., Larsen, J.B., Dross, F., Aleman, M., Bearda, T., O'Sullivan, B.J., Gordon, I., Poortmans, J., Guy Beaucarne, Jaap Hoornstra, Gunnar Schubert, Loozen, X., Larsen, J.B., Dross, F., Aleman, M., Bearda, T., O'Sullivan, B.J., Gordon, I., Poortmans, J., and Guy Beaucarne, Jaap Hoornstra, Gunnar Schubert

Abstract

The potential of contact passivation for increasing cell performance is indicated by several results reported in the literature. However, scant characterization of the tunneling layers used for that purpose has been reported. In this paper, contact passivation is investigated by insertion of an ultra-thin AlOx layer between an n-type emitter and a Ti/Pd/Ag contact. By using a 1.5nm thick layer, an increase of the minority carrier lifetime by a factor of 2.7 is achieved. Since current-voltage measurements indicate that an ohmic behavior is conserved for AlOx layers as thick as 1.5nm, a 1.5nm AlOx layer is found to be a candidate of choice for contact passivation.

Published

2011

2. Passivation of a Metal Contact with a Tunneling Layer

Author

Loozen, X., Larsen, J.B., Dross, F., Aleman, M., Bearda, T., O'Sullivan, B.J., Gordon, I., Poortmans, J., Guy Beaucarne, Jaap Hoornstra, Gunnar Schubert, Loozen, X., Larsen, J.B., Dross, F., Aleman, M., Bearda, T., O'Sullivan, B.J., Gordon, I., Poortmans, J., and Guy Beaucarne, Jaap Hoornstra, Gunnar Schubert

Abstract

The potential of contact passivation for increasing cell performance is indicated by several results reported in the literature. However, scant characterization of the tunneling layers used for that purpose has been reported. In this paper, contact passivation is investigated by insertion of an ultra-thin AlOx layer between an n-type emitter and a Ti/Pd/Ag contact. By using a 1.5nm thick layer, an increase of the minority carrier lifetime by a factor of 2.7 is achieved. Since current-voltage measurements indicate that an ohmic behavior is conserved for AlOx layers as thick as 1.5nm, a 1.5nm AlOx layer is found to be a candidate of choice for contact passivation.

Published

2011

3. Passivation of a Metal Contact with a Tunneling Layer

Author

Loozen, X., Larsen, J.B., Dross, F., Aleman, M., Bearda, T., O'Sullivan, B.J., Gordon, I., Poortmans, J., Guy Beaucarne, Jaap Hoornstra, Gunnar Schubert, Loozen, X., Larsen, J.B., Dross, F., Aleman, M., Bearda, T., O'Sullivan, B.J., Gordon, I., Poortmans, J., and Guy Beaucarne, Jaap Hoornstra, Gunnar Schubert

Abstract

The potential of contact passivation for increasing cell performance is indicated by several results reported in the literature. However, scant characterization of the tunneling layers used for that purpose has been reported. In this paper, contact passivation is investigated by insertion of an ultra-thin AlOx layer between an n-type emitter and a Ti/Pd/Ag contact. By using a 1.5nm thick layer, an increase of the minority carrier lifetime by a factor of 2.7 is achieved. Since current-voltage measurements indicate that an ohmic behavior is conserved for AlOx layers as thick as 1.5nm, a 1.5nm AlOx layer is found to be a candidate of choice for contact passivation.

Published

2011