Innovative emitter design for low-cost silicon based heterostructure solar cells

Author

Boumaour, M. ; Bahfir, A. ; Sali, S. ; Kermadi, S. ; Zougar, L. ; Ouarab, N.

Author_Institution

DDCS Div., Res. Centre in Semicond. Technol. for Energetic- CRTSE, Algiers, Algeria

fYear

2014

fDate

26-27 Oct. 2014

Firstpage

1

Lastpage

9

Abstract

N+ transparent conductor oxides (TCO´s) can be a valuable and low-cost alternative to conventional thermally diffused emitter of silicon based solar cells. With reduced resistivities by appropriate doping and considering lattice mismatch and energy band offsets at the interface with p-silicon substrate, predictive study by numerical simulation shows comparable performance between ZnS:Al and TiO₂:Nb with conversion efficiencies >16%. Furthermore, a back surface field achieved by a thin Sb₂Te₃ can enhance the efficiency with values higher than 18.5%.

Keywords

band structure; doping; electrical resistivity; elemental semiconductors; semiconductor thin films; silicon; solar cells; thin film devices; N+ transparent conductor oxide; Si; TCO; back surface field; energy band offset; innovative emitter design; lattice mismatch; low-cost silicon based heterostructure solar cell; p-silicon substrate; resistivity reduction; thermally diffused emitter; thin film; Doping; Heterojunctions; Lattices; Photovoltaic cells; Resistance; Silicon; Bandgap engineering; Heterojunctions; Numerical simulation; Silicon solar cells; TCO;

fLanguage

English

Publisher

ieee

Conference_Titel

Dielectric Materials for Photovoltaic Systems (NAWDMPV), 2014 North African Workshop on

Conference_Location

Tlemcen

Print_ISBN

978-1-4799-6502-1

Type

conf

DOI

10.1109/NAWDMPV.2014.6997604

Filename

6997604