Silicon heterojunction metal wrap through solar cells – a 3D TCAD simulation study

I. Dirnstorfer; D.K. Simon; B. Leszczynska; T. Mikolajick

doi:10.1051/epjconf/20137901004

All issues

Volume 79 (2014)

EPJ Web of Conferences, 79 (2014) 01004

Abstract

Open Access

Issue		EPJ Web of Conferences Volume 79, 2014 E2C 2013 – 3^rd European Energy Conference


Article Number		01004
Number of page(s)		8
Section		T1 – Fundamental Science
DOI		https://doi.org/10.1051/epjconf/20137901004
Published online		10 December 2014

EPJ Web of Conferences 79, 01004 (2014)
https://doi.org/10.1051/epjconf/20137901004

Silicon heterojunction metal wrap through solar cells – a 3D TCAD simulation study

I. Dirnstorfer¹, D.K. Simon¹, B. Leszczynska² and T. Mikolajick¹^,2

¹ NaMLab gGmbH, Nöthnitzer Str. 64, 01187 Dresden, Germany
² Institute for Semiconductor and Microsystems Technology, TU Dresden, 01062 Dresden, Germany

Published online: 10 December 2014

Abstract

Silicon heterojunction metal wrap through solar cells have the potential for high efficiencies in a simple process flow. However, the non-conformal deposition of the hydrogenated amorphous silicon emitter causes specific loss mechanisms of this cell concept. The emitter does not fully cover the inner via surface. As a consequence, the via surface is not passivated and the via metallization is in electrical contact with the silicon base. The resulting loss processes are determined in 3D TCAD simulations. While via related recombination losses are negligible even for highest surface recombination velocities, the resistive losses are found to be critical. The limit for the contact resistance between via metallization and silicon is in the range of 1 Ωcm², depending on substrate doping and via diameter. Below this value, the cell performance significantly degrades. Finally, three different approaches for novel SHJ-MWT solar cells are discussed.

This is an Open Access article distributed under the terms of the Creative Commons Attribution License 4.0, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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