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Self-regulated charge transfer and band tilt in nm-scale polar GaN films
M. H. Tsai,
Sandwip Dey
Chemical Engineering
Materials Science and Engineering
Civil and Environmental Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
5
Scopus citations
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Dive into the research topics of 'Self-regulated charge transfer and band tilt in nm-scale polar GaN films'. Together they form a unique fingerprint.
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Engineering & Materials Science
Charge transfer
100%
Electrostatics
62%
Band structure
54%
Dangling bonds
35%
Valence bands
35%
Conduction bands
33%
Electronic structure
28%
Surface states
27%
Thick films
23%
Atoms
20%
Hydrogen
15%
Chemical Compounds
Electrostatic Potential
61%
Charge Transfer
54%
Electronic Band Structure
39%
Liquid Film
37%
Dangling Bond
25%
Surface State
23%
Valence Band
21%
Conduction Band
21%
Dipole
19%
Energy
18%
Electronic State
14%
Surface
12%
Physics & Astronomy
charge transfer
67%
energy bands
54%
electrostatics
44%
hydrogen atoms
18%
thick films
18%
conduction bands
16%
electronic structure
14%
dipoles
14%
valence
14%
energy
5%