Logo der Universität Wien
You are here:>University of Vienna >Faculty of Physics>Vienna Computational Materials Laboratory

Defect states at c-Si/a-SiN:H interfaces

A talk by Leif Eric Hintzsche, Computational Materials Physics

Monday, November 17th 2014, 4:00 p.m.
Seminar Room 138C, Vienna University of Technology, "Freihaus"‐ building, 9th floor, "yellow" – Wiedner Hauptstraße 8‐10, A‐1040 Vienna, AUSTRIA

 

ABSTRACT: Modern electronic devices are unthinkable without the controlled formation of interfaces at heterostructures. These often involve at least one amorphous material. Modeling such interfaces poses a significant challenge, since a meaningful result can only be expected by using huge models or by drawing from many statistically independent samples. Here we report on the results of high throughput calculations for interfaces between crystalline silicon (c-Si) and amorphous silicon nitride (a-Si3N3.5:H), which are omnipresent in commercially available solar cells. The findings reconcile many hardly understood key features. At the interface, many threefold coordinated Si atoms are present. These are caused by the structural mismatch between the amorphous and crystalline part. The local Fermi level of undoped c-Si lies well below that of a-SiN:H. To align the Fermi levels in the device, charge is transferred from the a-SiN:H part to the c-Si part resulting in an abundance of positively charged, threefold coordinated Si atoms. This explains the existence of a positive, fixed charge at the interface that repels holes.

Leif Eric Hintzsche

Computational Materials Physics

VIENNA COMPUTATIONAL MATERIALS LABORATORY

Sensengasse 8/12
A-1090 Vienna
AUSTRIA
T: +43-1-4277-51401
F: +43-1-4277-9514
E-Mail
University of Vienna | Universitätsring 1 | 1010 Vienna | T +43-1-4277-0
Lastupdate: 07.10.2015 - 16:42