Computational design of direct-bandgap semiconductors that lattice-match silicon
about
Dipole-allowed direct band gap silicon superlattices.White light emission from heterojunction diodes based on surface-oxidized porous Si nanowire arrays and amorphous In-Ga-Zn-O capping.Prediction that uniaxial tension along <111> produces a direct band gap in germanium.Tailoring Band Gap and Hardness by Intercalation: Anab initioStudy ofI8@Si−46and Related Doped Clathrates
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Computational design of direct-bandgap semiconductors that lattice-match silicon
description
article publié dans la revue scientifique Nature
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scientific article published in Nature
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wetenschappelijk artikel
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наукова стаття, опублікована в Nature в січні 2001
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name
Computational design of direct-bandgap semiconductors that lattice-match silicon
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Computational design of direct-bandgap semiconductors that lattice-match silicon
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type
label
Computational design of direct-bandgap semiconductors that lattice-match silicon
@en
Computational design of direct-bandgap semiconductors that lattice-match silicon
@nl
prefLabel
Computational design of direct-bandgap semiconductors that lattice-match silicon
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Computational design of direct-bandgap semiconductors that lattice-match silicon
@nl
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Computational design of direct-bandgap semiconductors that lattice-match silicon
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10.1038/35051054
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2001-01-01T00:00:00Z
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1030069734