Engineering & Materials Science
Amines
15%
Ammonia
14%
Anodes
75%
Binding energy
25%
Boron
47%
Carbon
9%
Catalysis
52%
Catalysts
11%
Chemical activation
35%
Computer simulation
31%
Dehydrogenation
18%
Density functional theory
100%
Electric vehicles
11%
Electrodes
52%
Energy storage
34%
Explosions
12%
Formic acid
19%
Fossil fuels
12%
Fuel cells
35%
Germanium
52%
Graphene
55%
Heterojunctions
51%
Hydrogen bonds
13%
Hydrogen storage
50%
Intercalation
14%
Life cycle
11%
Ligands
17%
Light metals
11%
Lithium-ion batteries
81%
Membranes
33%
Metalorganic frameworks
62%
Metals
40%
Molecular dynamics
59%
Molecules
25%
Nanosystems
12%
Nonmetals
63%
Phase transitions
13%
Potential energy
14%
Proton transfer
71%
Protons
47%
Quantum theory
11%
Scandium
62%
Secondary batteries
17%
Semiconductor quantum wires
15%
Silicon
30%
Sodium
20%
Sodium-ion batteries
72%
Substitution reactions
15%
Temperature
24%
Transition metals
61%
Chemical Compounds
1,2,4-triazole
23%
Ambient Reaction Temperature
21%
Ammonia
44%
Amorphous Material
27%
Anode
57%
Aromatic Amine
20%
Behavior as Electrode
26%
Binding Energy
17%
Borane
65%
Boron Atom
51%
Catalysis
29%
Catalyst
19%
Cathode
28%
Chemistry
16%
Dehydrogenation
54%
Density Functional Theory
69%
Dihydrogen
43%
Dissociation
18%
Electronic Property
16%
Energy
17%
Energy Storage
33%
Environmental Friendliness
12%
Flake Like Crystal
41%
Formic Acid
17%
Fossil Fuel
15%
G Value
26%
Graphene
32%
Hydrogen
19%
Intercalation Compound
28%
Liquid Film
19%
Lithiation
14%
Main Group Element
26%
Metal
38%
Methanol
23%
Molecular Cluster
32%
Molecular Dynamics
20%
Molecule
21%
Nonmetal
49%
Oligomer
15%
Oligomerization
20%
Pair Correlation Function
19%
Phenyl Group
39%
Potential Energy
13%
Proton Transfer
35%
Reduction Potential
13%
Simulation
16%
Sodium Atom
22%
Transition Element
35%
Voltage
16%
Volume
30%
Physics & Astronomy
activation
31%
alcohols
8%
ammonia
40%
binding energy
16%
boranes
60%
boron
16%
catalysis
9%
catalysts
25%
catalytic activity
50%
cathodes
31%
chemical bonds
9%
cleavage
8%
cobalt
36%
costs
9%
dehydrogenation
50%
density functional theory
43%
dissociation
25%
electric potential
5%
electronics
15%
energy
5%
flakes
45%
fuel cells
45%
graphene
32%
hydrogen
30%
insertion
38%
interactions
14%
intercalation
22%
iridium
48%
membranes
28%
metal clusters
9%
metals
25%
methyl alcohol
40%
methylidyne
15%
moisture content
5%
molecular dynamics
28%
molecules
24%
nitrogen
7%
oligomers
22%
products
12%
protons
25%
regeneration
22%
room temperature
21%
ruthenium
9%
scandium
50%
sodium
8%
structural stability
45%
substitutes
15%
transition metals
16%
water
27%
