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Effect of carbon on lattice parameters of the MgB
2
thin films: A computational study
A. Saengdeejing, Y. Wang,
Z. K. Liu
Materials Science and Engineering
Institute for Computational and Data Sciences (ICDS)
Materials Research Institute (MRI)
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2
thin films: A computational study'. Together they form a unique fingerprint.
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Keyphrases
Computational Study
100%
MgB2
100%
MgB2 Thin Film
100%
Carbon Effect
100%
Lattice Parameter
100%
Coefficient of Thermal Expansion
66%
Elastic Constants
66%
MgB2C2
66%
Expansion Constant
66%
Graphite
33%
First-principles Calculations
33%
Thermal Expansion
33%
Carbon-doped
33%
Hybrid Physical-chemical Vapor Deposition (HPCVD)
33%
Lattice Mismatch
33%
Elastic Mismatch
33%
Work-first
33%
Lattice Deformation
33%
Engineering
Thin Films
100%
Lattice Parameter
100%
Elastic Constant
66%
Coefficient of Thermal Expansion
66%
Good Agreement
33%
Chemical Vapor Deposition
33%
Vapor Deposition
33%
Assuming
33%
Material Science
Thin Films
100%
Thermal Expansion
100%
Lattice Constant
100%
Elastic Constant
66%
Chemical Vapor Deposition
33%
Chemical Engineering
Vapor Deposition
100%
Chemical Vapor Deposition
100%