Investigation of the Kinetics of Digermane Chemisorption And Reaction Product Desorption In Thin Film Growth Of Germanium

Gyula Eres, J. W. Sharp

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Abstract

The kinetics of the elementary reaction steps in surface-limited thin film growth of germanium from digermane was investigated by utilizing surface differential reflectance. Separation of the elementary reaction steps of chemisorption and reaction product desorption was achieved by using a pulsed molecular beam to modulate the digermane delivery to the heated substrate. Both elementary reaction steps were found to be single exponential first-order processes. The chemisorption reaction on Ge(100) was rapid (k1= 500 ± 50 s-1), and independent of the substrate temperature between 680 and 810 K. On the other hand the desorption step in the same substrate temperature range is strongly temperature dependent with an activation energy of 1.7±0.1 eV and a prefactor of 2xl0I3±1s-1. A simple kinetic model comprised of two opposing first-order elementary steps is found to be consistent with the experimental results. It is concluded that the kinetic data are compatible with the pairing mechanism for molecular hydrogen desorption, but no (thermal) decomposition mechanism of digermane is found to provide a unique interpretation for the first-order adsorption kinetics.

Original languageEnglish
Pages (from-to)2463-2471
Number of pages9
JournalJournal of Vacuum Science and Technology, Part A: Vacuum, Surfaces and Films
Volume11
Issue number5
DOIs
StatePublished - Sep 1993

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