Metal oxides produced by hollow cathode sputtering, their utility in thin film photovoltaics, and results for AZO

Authors

Alan E. Delahoy, New Jersey Institute of Technology
Sebastian Falk, New Jersey Institute of Technology
Payai Patra, New Jersey Institute of Technology
Roman Korotkov, Arkema Inc.
Bastian Siepchen, CTF SOLAR GmbH
Shou Peng, Bengbu Design and Research Institute for Glass Industry
Ken K. Chin, New Jersey Institute of Technology

Document Type

Conference Proceeding

Publication Date

1-1-2017

Abstract

An R&D-scale hollow cathode sputtering (HCS) system has been designed and built at NJIT. It operates in reactive mode using metal targets and can deposit virtually any metal oxide. We survey the use of metal oxide layers in thin film PV and report the preparation by HCS of several oxides including ZnO, ZnO:Al (AZO), ZnxSnyO, CdxSnyO, and Cu2-xO. Oxynitrides have also been prepared. For AZO, an excellent electron mobility of 53.4 cm²/Vs has so far been achieved, close to a world record for an as-deposited, sputter-based AZO layer. Cu2-xO layers have been successfully utilized as a back contact in CdTe solar cells. Work is under way to prepare the entire front stack of CdTe solar cells, namely TCO/HRT/buffer, by hollow cathode sputtering.

Identifier

85048495865 (Scopus)

ISBN

[9781509056057]

Publication Title

2017 IEEE 44th Photovoltaic Specialist Conference Pvsc 2017

External Full Text Location

https://doi.org/10.1109/PVSC.2017.8366302

First Page

1452

Last Page

1454

Recommended Citation

Delahoy, Alan E.; Falk, Sebastian; Patra, Payai; Korotkov, Roman; Siepchen, Bastian; Peng, Shou; and Chin, Ken K., "Metal oxides produced by hollow cathode sputtering, their utility in thin film photovoltaics, and results for AZO" (2017). Faculty Publications. 10050.
https://digitalcommons.njit.edu/fac_pubs/10050