مرکز منطقه ای اطلاع رساني علوم و فناوري - Process-Induced Degradation of SiO<inline-formula> <img src="/images/tex/996.gif" alt="_{\\bf 2}"> </inline-formula> and a-Si:H Passivation Layers for Photovoltaic Applications

DocumentCode :

53010

Title :

Process-Induced Degradation of SiO $_{\\bf 2}$ and a-Si:H Passivation Layers for Photovoltaic Applications

Author :

O´Sullivan, B.J. ; Bearda, T. ; Nadupalli, S. ; Labie, R. ; Baert, K. ; Gordon, I. ; Poortmans, Jozef

Author_Institution :

IMEC, Leuven, Belgium

Volume :

Issue :

fYear :

2014

fDate :

Sept. 2014

Firstpage :

1197

Lastpage :

1203

Abstract :

The passivation characteristics of thermally grown silicon dioxide (SiO₂) and hydrogenated amorphous silicon (a-Si:H) layers are investigated, using a combination of photoluminescence and capacitance-voltage analysis techniques. Key findings are the significant passivation degradation of SiO₂ and a-Si:H layers induced by metallization through electron beam evaporation. The degradation correlates with an increase in silicon dangling bond defect density at the interface with silicon (for both SiO₂ and a-Si:H) or in the passivation layer (a-Si:H). Performing the metallization by thermal evaporation is an effective method to avoid such process-induced damage, as is forming gas annealing at 450°C, which effectively recovers the interface characteristics of SiO₂ layers. Deposition of amorphous silicon on a thermal SiO₂ layer induces bulk and interface defects in the SiO₂ layer-but in this case, a 450°C forming gas anneal is not possible due to the thermal budget limitations of a-Si:H, thereby posing problems for solar cell structures which rely on a combination of PECVD a-Si:H and thermal SiO₂ passivation layers.

Keywords :

amorphous semiconductors; annealing; chemical vapour deposition; dangling bonds; elemental semiconductors; hydrogen; metallisation; passivation; photoluminescence; semiconductor growth; semiconductor thin films; silicon; silicon compounds; solar cells; vacuum deposition; PECVD; SiO₂-Si:H; a-Si:H layers; amorphous silicon deposition; capacitance-voltage analysis techniques; electron beam evaporation; forming gas annealing; hydrogenated amorphous silicon layers; interface characteristics; interface defects; metallization; passivation degradation; photoluminescence; photovoltaic applications; process-induced damage; process-induced degradation; silicon dangling bond defect density; solar cell structures; temperature 450 degC; thermal budget limitations; thermal evaporation; thermal passivation layers; thermally grown silicon dioxide; Aluminum; Annealing; Degradation; Metallization; Passivation; Silicon; Capacitance--voltage (C--V); Capacitance??voltage (C??V); dangling bond defects; passivation layer; photoluminescence (PL); recombination;

fLanguage :

English

Journal_Title :

Photovoltaics, IEEE Journal of

Publisher :

ieee

ISSN :

2156-3381

Type :

jour

DOI :

10.1109/JPHOTOV.2014.2326711

Filename :

6834759

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=53010