Laser-sintered thin films of doped SiGe nanoparticles

Benedikt Stoib; Dietrich E. Wolf; Gabi Schierning; Hartmut Wiggers; Martin S. Brandt; Martin Stutzmann; Niklas Stein; Nils Petermann; Roland Schmechel; Sebastian Angst

arxiv: 1201.4370 · v1 · pith:LNFKUFDSnew · submitted 2012-01-20 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall

Laser-sintered thin films of doped SiGe nanoparticles

Benedikt Stoib , Tim Langmann , Sonja Matich , Tobias Antesberger , Niklas Stein , Sebastian Angst , Nils Petermann , Roland Schmechel

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Gabi Schierning Dietrich E. Wolf Hartmut Wiggers Martin Stutzmann Martin S. Brandt

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classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hall

keywords filmslaser-sinteredsigethintypicalalloybestcoefficient

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We present a study of the morphology and the thermoelectric properties of short-pulse laser-sintered (LS) nanoparticle (NP) thin films, consisting of SiGe alloy NPs or composites of Si and Ge NPs. Laser-sintering of spin-coated NP films in vacuum results in a macroporous percolating network with a typical thickness of 300 nm. The Seebeck coefficient is independent of the sintering process and typical for degenerate doping. The electrical conductivity of LS films rises with increasing temperature, best described by a power-law and influenced by two-dimensional percolation effects.

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Laser-sintered thin films of doped SiGe nanoparticles

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