Investigation of the Internal Back Reflectance of Rear-Side Dielectric Stacks for c-Si Solar Cells

Author

Davis, K.O. ; Kaiyun Jiang ; Demberger, C. ; Zunft, H. ; Haverkamp, H. ; Habermann, Danilo ; Schoenfeld, W.V.

Author_Institution

Florida Solar Energy Center, Univ. of Central Florida, Orlando, FL, USA

Volume

3

Issue

2

fYear

2013

fDate

Apr-13

Firstpage

641

Lastpage

648

Abstract

This paper addresses the calculation of internal back reflectance for various dielectrics that are used in rear-side passivated crystalline silicon solar cells. Optical modeling of various stack configurations is examined to explore the back-surface reflectance at the Si-dielectric interface for different film combinations and thicknesses as a function of wavelength and internal angle of incidence at the rear side. Specifically, configurations using aluminum oxide (AlO_x), silicon nitride (SiN_x), titanium dioxide (TiO₂), and silicon dioxide (SiO₂) were investigated with a focus on designing stack configurations that will also allow for high-quality passivation and are compatible with a high-volume manufacturing environment. In addition, samples were fabricated by plasma-enhanced and atmospheric pressure chemical vapor deposition of thin dielectric films onto polished and textured monocrystalline silicon wafers. Spectral reflectance curves of the samples are presented to supplement and validate the conclusions that are obtained from the optical modeling data.

Keywords

aluminium compounds; dielectric thin films; elemental semiconductors; infrared spectra; passivation; plasma CVD; semiconductor device models; semiconductor-insulator boundaries; silicon; silicon compounds; solar cells; titanium compounds; visible spectra; AlO_x-Si; Si-dielectric interface; SiN_x-Si; SiO₂-Si; TiO₂-Si; aluminum oxide; atmospheric pressure chemical vapor deposition; film thickness; high-quality passivation; internal back reflectance; optical modeling; plasma-enhanced chemical vapor deposition; polished monocrystalline silicon wafers; pressure 1 atm; rear-side dielectric stacks; rear-side passivated crystalline silicon solar cells; silicon dioxide; silicon nitride; spectral reflectance curves; stack configurations; textured monocrystalline silicon wafers; thin dielectric films; titanium dioxide; Dielectrics; Optical surface waves; Photovoltaic cells; Refractive index; Silicon; Surface waves; Wavelength measurement; Characterization; Si photovoltaics (PV) modeling; dielectric films; metrology; optics; photovoltaic cells; silicon;

fLanguage

English

Journal_Title

Photovoltaics, IEEE Journal of

Publisher

ieee

ISSN

2156-3381

Type

jour

DOI

10.1109/JPHOTOV.2012.2233861

Filename

6407632