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Type: 
Journal
Description: 
The diffusion of boron in nanocrystalline silicon carbide (nc-SiC) films with a grain size of 4–7 nm is studied using a poly-Si boron source. Diffusion is found to be much faster than in monocrystalline SiC as it takes place within the grain boundary (GB) network. Drive-in temperatures of 900–1000 °C are suitable for creating shallow boron profiles up to 100 nm deep, while 1100 °C is sufficient to flood the 200 nm thick films with boron. From the resulting plateau at 1100 °C a boron segregation coefficient of 28 between nc-SiC and the Si substrate, as well as a GB boron solubility limit of 0.2 nm−2 is determined. GB diffusion in the bulk of the films is Fickian and thermally activated with DGB(T)=(3.1−5.6)×107exp(−5.03±0.16  eV/kBT) cm2s−1. The activation energy is interpreted in terms of a trapping mechanism at dangling bonds. Higher boron concentrations are present at the nc-SiC surface and are attributed to …
Publisher: 
American Institute of Physics
Publication date: 
26 May 2014
Authors: 

Manuel Schnabel, Charlotte Weiss, Mariaconcetta Canino, Thomas Rachow, Philipp Löper, Caterina Summonte, Salvo Mirabella, Stefan Janz, Peter R Wilshaw

Biblio References: 
Volume: 104 Issue: 21 Pages: 213108
Origin: 
Applied Physics Letters