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The Diffusion Mechanism of Ge During Oxidation of Si/SiGe Nanofins

Thornton, Chappel S.; Tuttle, Blair; Turner, Emily; Law, Mark E.; Pantelides, Sokrates T.; Wang, George T.; Jones, Kevin S.

A recently discovered, enhanced Ge diffusion mechanism along the oxidizing interface of Si/SiGe nanostructures has enabled the formation of single-crystal Si nanowires and quantum dots embedded in a defect-free, single-crystal SiGe matrix. Here, we report oxidation studies of Si/SiGe nanofins aimed at gaining a better understanding of this novel diffusion mechanism. A superlattice of alternating Si/Si0.7Ge0.3layers was grown and patterned into fins. After oxidation of the fins, the rate of Ge diffusion down the Si/SiO2interface was measured through the analysis of HAADF-STEM images. The activation energy for the diffusion of Ge down the sidewall was found to be 1.1 eV, which is less than one-quarter of the activation energy previously reported for Ge diffusion in bulk Si. Through a combination of experiments and DFT calculations, we propose that the redistribution of Ge occurs by diffusion along the Si/SiO2interface followed by a reintroduction into substitutional positions in the crystalline Si.