Title :
Formation of Ag/Al Screen-Printing Contacts on B Emitters
Author :
Fritz, Susanne ; König, Markus ; Riegel, Stefanie ; Herguth, Axel ; Hörteis, Matthias ; Hahn, Giso
Author_Institution :
Dept. of Phys., Univ. of Konstanz, Konstanz, Germany
Abstract :
In this study, the contact formation process of Al containing Ag screen-printing pastes to BBr3-based B emitters on Si is investigated. Therefore, a detailed scanning electron microscopy (SEM) and energy-dispersive X-ray spectroscopy study of top-view and cross-sectional samples was conducted. The possible influence of a SiN∞:H antireflection coating was considered by comparing contacts with and without a SiN∞:H layer. To analyze the role of the glass frit in the paste, the contact formation of pastes without glass was examined. The results indicate that the Ag/Al contact spots grow below the Si surface/SiN∞:H layer. The glass frit is only indispensable for etching the antireflection layer-it is not needed for melting the metal in the screen-printing paste. The realized experiments lead to a phenomenological model for the contact formation process of Al containing screen-printing pastes to boron emitters.
Keywords :
X-ray chemical analysis; aluminium; antireflection coatings; boron; etching; integrated circuits; metallisation; scanning electron microscopy; silver; Ag-Al-B; SEM; Si; SiNx:H antireflection coating; antireflection layer; boron emitters; contact formation; cross-sectional samples; energy-dispersive X-ray spectroscopy; glass frit; melting; phenomenological model; scanning electron microscopy; screen-printing contact formation; screen-printing paste; screen-printing pastes; Coatings; Glass; Metals; Nonhomogeneous media; Shape; Silicon; Surface treatment; Boron emitters; contact formation; metallization; p+Si; p+Si; scanning electron microscopy (SEM); screen-printing;
Journal_Title :
Photovoltaics, IEEE Journal of
DOI :
10.1109/JPHOTOV.2014.2364117
