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Aligning electronic energy levels at the TiO2/H2O interface
Jun Cheng
*
, Michiel Sprik
*
Corresponding author for this work
Chemistry
University of Cambridge
Research output
:
Contribution to journal
›
Article
›
peer-review
117
Citations (Scopus)
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Engineering & Materials Science
Electron energy levels
100%
Ionization potential
77%
Conduction bands
73%
Solvation
69%
Titanium dioxide
56%
Protons
51%
Free energy
51%
Energy gap
48%
Water
46%
Ions
39%
Vacuum
38%
Hydrogen
34%
Electrodes
33%
Experiments
15%
Physics & Astronomy
energy levels
69%
water
49%
solvation
47%
ionization potentials
46%
titanium oxides
44%
electronics
44%
insertion
42%
conduction bands
37%
free energy
35%
alignment
33%
protons
28%
vacuum
27%
electrodes
26%
hydrogen
26%
ions
20%
interactions
17%
energy
12%
Chemical Compounds
Energy
40%
Conduction Band
31%
Ionization Potential
28%
Solvation
24%
Titanium Dioxide
23%
Vacuum
22%
Gibbs Free Energy
21%
Band Gap
21%
Error
21%
Proton
18%
Hydrogen
14%
Behavior as Electrode
14%
Ion
11%