Stable reverse bias or integrated bypass diode in HIP‑MWT+ solar cells
-
Published:2022
Issue:
Volume:13
Page:5
-
ISSN:2105-0716
-
Container-title:EPJ Photovoltaics
-
language:
-
Short-container-title:EPJ Photovolt.
Author:
Schweigstill Tadeo,Spribille Alma,Huyeng Jonas D.,Clement Florian,Glunz Stefan W.
Abstract
The Metal Wrap Through+ (HIP-MWT+) solar cell is based on the PERC concept but features two additional electrical contacts, namely the Schottky contact between p-type Si bulk and Ag n-contact and the metal-insulator-semiconductor (MIS) contact on the rear side of the cell below the n-contact pads. To prevent thermal hotspots under reverse bias, both contacts shall either restrict current flow or allow a homogenous current flow at low voltage. In this work we present both options. First the stable reverse bias characteristics up to −15 V with a MIS contact using industrially manufactured SiON passivation and second, an integrated by-pass diode using AlOX as insulator in the passivation stack allowing current flows at approximately Vrev = –3.5 V depending on the chosen screen-print paste. The examined Schottky contacts break down at around Vrev = –2.5 V. Reverse bias testing of the cells reveals a solid performance of the cells under reverse bias and an average conversion efficiency of η = 21.2% (AlOX) and η = 20.7% (SiON), respectively.
Subject
Electrical and Electronic Engineering,Condensed Matter Physics,Renewable Energy, Sustainability and the Environment,Electronic, Optical and Magnetic Materials
Reference16 articles.
1. 22.8% efficient silicon solar cell
2. ITRPV, International Technology Roadmap for Photovoltaic (ITRPV) − Results 2018, 2019
3. Van Kerschaver E., De Wolf S., Szlufcik J., Conference Record of the Twenty-Eighth IEEE photovoltaic Specialists Conference (2000), pp. 209–212
4. Loss analysis and efficiency potential of p-type MWT–PERC solar cells
5. Thaidigsmann B., Ph.D. thesis, University of Tübingen, 2013