Title :
Charge trapping and storage in SiNx thin films deposited with Oxford PlasmaLab 100 system
Author :
Yongling Ren ; Weber, Kival ; Karouta, F. ; Vora, K. ; Wensheng Liang
Author_Institution :
Centre for Sustainable Energy Syst., Australian Nat. Univ., Canberra, ACT, Australia
Abstract :
Negative charges in silicon nitride films are beneficial for surface passivation of rear side of p type solar cells.[1] Previous studies indicates that N-rich SiNx films in an oxide-nitride-oxide structure display good charge trapping and storage ability. In this work, an Oxford PlasmaLab 100 PECVD system is used to vary the deposition conditions (temperature and RF power). SiNx films deposited at 400°C and RF=60W show an initial negative charge density of 1.2×1013/cm2 after negative charge injection. Modeling results suggest that tunnel oxide may not be necessary for achieving good charge stability, which will make the application more flexible.
Keywords :
charge injection; passivation; plasma CVD; silicon compounds; solar cells; thin film devices; Oxford PlasmaLab 100 system; PECVD system; SiNx; charge storage; charge trapping; deposition condition; negative charge density; negative charge injection; p type solar cell; power 60 W; structure display; surface passivation; temperature 400 degC; thin film; Abstracts; Annealing; Australia; Charge carrier processes; Films; Plasma measurements; Thickness measurement; Charge; Oxford PlasmaLab 100 System; SiNx films; solar cells; surface passivation;
Conference_Titel :
Photovoltaic Specialists Conference (PVSC), 2012 38th IEEE
Conference_Location :
Austin, TX
Print_ISBN :
978-1-4673-0064-3
DOI :
10.1109/PVSC.2012.6317793
