Engineering & Materials Science
Oxidation-Reduction
100%
Enzymes
72%
Oxidoreductases
63%
Electrons
60%
Monolayers
60%
Proteins
51%
Oxidation
45%
Catalysts
43%
Quartz crystal microbalances
36%
Polymers
33%
Hydrogen bonds
31%
Perovskite
31%
Catalysis
30%
Water
28%
Diffusion in gases
28%
Electrodes
25%
Biological fuel cells
25%
Hydration
24%
Carbon dioxide
24%
Hydrogen
22%
Current density
22%
Lead
21%
Photocurrents
19%
Carbonic anhydrase
16%
Tin oxides
15%
Energy conversion
15%
Indium
14%
Escherichia coli
14%
Irradiation
13%
Enzyme inhibition
13%
Glassy carbon
13%
Protons
13%
Fermentation
12%
Photocathodes
12%
Electric wiring
12%
Chronoamperometry
11%
Hybrid systems
11%
Acids
10%
Ligands
10%
Catalyst activity
9%
Perovskite solar cells
9%
Open circuit voltage
9%
Monomers
9%
Photosynthesis
8%
Precious metals
7%
Biological materials
7%
Enzyme kinetics
7%
Anodes
7%
Positive ions
7%
Electrocatalysts
7%
Chemistry
Hydration Kinetics
36%
Formate
35%
Flow
29%
Formate Dehydrogenase
28%
Electron Particle
26%
Photoelectrode
26%
Biofuel
25%
Carbon Dioxide
23%
Hydrogen
23%
Protein
22%
Behavior as Electrode
22%
Monolayer
21%
Cysteine
19%
Halide
17%
Catalyst
17%
Current Density
16%
Chronoamperometry
16%
Selenocysteine
16%
Catalysis
14%
Liquid Film
13%
Bilirubin
13%
Mutation
12%
Oxidation Reaction
12%
Protein Film Voltammetry
12%
Gas
12%
Electron Transfer
11%
Diffusion
11%
Dioxygen
11%
Photocurrent
10%
Reduction
10%
Proton
9%
Dihydrogen
8%
Ligand
8%
Voltage
8%
Electrocatalysis
8%
Surface
7%
Self Assembled Monolayer
7%
Photosynthesis
6%
Turnover Number
6%
Co-Catalyst
6%
Desorption
5%
Trimer
5%
Carbon Atom
5%
Donor
5%
Environment
5%
Heterogeneous Catalysis
5%
Medicine & Life Sciences
nickel-iron-selenium hydrogenase
54%
Hydrogenase
46%
formate hydrogenlyase
42%
Krypton
36%
formic acid
29%
Hydrogen
26%
Formate Dehydrogenases
26%
Carbon Dioxide
24%
Catalytic Domain
20%
Gases
19%
Oxygen
16%
Desulfovibrio vulgaris
14%
indium tin oxide
13%
nickel-iron hydrogenase
13%
Enzymes
12%
Selenocysteine
11%
Nickel
9%
Fermentation
8%
Membrane Proteins
6%
Electrons
6%
Acids
5%
Direction compound
5%
Temperature
5%
Ligands
5%
Escherichia coli
5%