Engineering & Materials Science
Oxygen evolution reaction
100%
Oxygen
51%
Perovskite
50%
Oxides
48%
Electrocatalysis
44%
Electronic structure
36%
Catalysts
28%
Oxygen reduction reaction
28%
Electrocatalysts
26%
Water
22%
Thin films
21%
Hydroxylation
21%
Oxidation-Reduction
19%
Charge transfer
17%
X ray photoelectron spectroscopy
16%
Transition metals
16%
Oxidation
15%
Adsorbates
15%
Epitaxial films
15%
X ray absorption spectroscopy
14%
Metals
13%
Oxygen vacancies
13%
Fermi level
12%
Electrons
12%
Electrolytes
11%
Density functional theory
11%
Wetting
10%
Hydrogen
10%
Photoelectron spectroscopy
10%
Adsorption
10%
Catalyst activity
10%
Catalysis
9%
X ray spectroscopy
9%
Valence bands
9%
Surface chemistry
9%
X rays
8%
Transition metal oxides
8%
Hydrogenation
8%
Manganese
8%
Oxide films
7%
Platinum
7%
Hydrogen evolution reaction
7%
Redox reactions
7%
Manganese oxide
6%
Ruthenium
6%
Substitution reactions
6%
Electrodes
6%
Electrolysis
6%
Energy storage
5%
Chemical Compounds
Dioxygen
49%
Oxide
29%
Electrocatalysis
25%
Surface
22%
Electronic State
18%
Reduction
15%
Catalyst
12%
X-Ray Photoelectron Spectroscopy
11%
Pressure
10%
Liquid Film
10%
Hydrogen
8%
Charge Transfer
8%
Photoelectron Spectroscopy
8%
Metal Oxide
8%
Strain
8%
Oxidation Reaction
7%
Fermi Level
7%
Valence Band
7%
Humidity
7%
X Ray Absorption Spectroscopy
7%
Rutile
6%
Soft X-Ray
6%
Dissociative Adsorption
6%
Hydroxyl
6%
X-Ray Spectroscopy
6%
Surface Chemistry
5%
Chemistry
5%
Transition Element
5%
Energy
5%
Catalysis
5%
Physics & Astronomy
oxygen
32%
perovskites
23%
oxides
16%
catalysts
14%
water
14%
photoelectron spectroscopy
11%
electronic structure
11%
electrocatalysts
10%
x rays
9%
reactivity
9%
oxidation
8%
absorption spectroscopy
7%
transition metals
6%
tuning
6%
thin films
6%
catalysis
6%
humidity
6%
catalytic activity
5%
metal oxides
5%
adsorption
5%
charge transfer
5%
