Enhanced cation-substituted p-type doping in GaP from dual surfactant effects

Enhanced cation-substituted p-type doping in GaP from dual surfactant effects

We report first principles calculations demonstrating a dual-surfactant effect of Sb and H on enhanced Zn, Mg, Be and Cd incorporation in organometallic vapor phase epitaxially grown GaP films. The combined effects of Sb and H lower significantly the film doping energy during the epitaxial growth of...

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Veröffentlicht in:Journal of crystal growth 2010, Vol.312 (2), p.174-179
Hauptverfasser: Zhu, Junyi, Liu, Feng, Stringfellow, G.B.
Format: Artikel
Sprache:eng
Schlagworte:
A1. Doping
A1. Surface
A3. Organometallic vapor phase epitaxy
B2. Semiconducting III–V materials
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Cross-disciplinary physics: materials science
rheology
Electron states
Exact sciences and technology
Materials science
Methods of crystal growth
physics of crystal growth
Methods of deposition of films and coatings
film growth and epitaxy
Methods of electronic structure calculations
Other materials
Physics
Specific materials
Theory and models of crystal growth
physics of crystal growth, crystal morphology and orientation
Vapor phase epitaxy
growth from vapor phase
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Zusammenfassung:We report first principles calculations demonstrating a dual-surfactant effect of Sb and H on enhanced Zn, Mg, Be and Cd incorporation in organometallic vapor phase epitaxially grown GaP films. The combined effects of Sb and H lower significantly the film doping energy during the epitaxial growth of all the p-type dopants studied, while neither Sb nor H can work alone as effectively. The role of H is to satisfy the electron counting rule. The role of Sb is to serve as an electron reservoir to help electron redistribution. We also predict that due to the low electronegativity of Mg, Sb and H will enhance Mg doping the least among these dopants because Mg as an electron reservoir itself may negate the electron reservoir effect of Sb. Our findings provide an important general physical understanding for p-type doping in III—V thin films.
ISSN:0022-0248
1873-5002
DOI:10.1016/j.jcrysgro.2009.10.031