As/Sb and Sb/As anion exchange reactions are characterized and modeled in order to better understand and control mixed-anion heterojunction synthesis by molecular-beam epitaxy. The importance of substrate temperature, anion flux exposure time, and incident anion molecular species is examined. Sb/As structures exhibit Sb surface segregation, and the subsequent incorporation of the segregating surface population into epitaxial overlayers. As/Sb exchange is significant in extent of the reaction, and enhanced with incident dimer fluxes. Competitive reactions between exchange and isoelectronic compound formation yield complex structures
Fundamental reactions controlling anion exchange during the synthesis of Sb/As mixed-anion heterojunctions
M Losurdo;G Bruno;
2004
Abstract
As/Sb and Sb/As anion exchange reactions are characterized and modeled in order to better understand and control mixed-anion heterojunction synthesis by molecular-beam epitaxy. The importance of substrate temperature, anion flux exposure time, and incident anion molecular species is examined. Sb/As structures exhibit Sb surface segregation, and the subsequent incorporation of the segregating surface population into epitaxial overlayers. As/Sb exchange is significant in extent of the reaction, and enhanced with incident dimer fluxes. Competitive reactions between exchange and isoelectronic compound formation yield complex structuresFile in questo prodotto:
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