Engineering & Materials Science
Ferromagnetism
66%
Spintronics
66%
Photocatalysis
66%
Monolayers
64%
Density functional theory
54%
Nanoclusters
54%
Platinum
36%
Ligands
34%
Catalyst activity
33%
Metal-Organic Frameworks
33%
Metalorganic frameworks
33%
Biomolecules
29%
Transition metals
28%
Fuel cells
28%
Oxygen reduction reaction
26%
Electrons
25%
Magnetic anisotropy
25%
Carbon nitride
24%
Graphene
24%
Chemical sensors
23%
Doping (additives)
21%
Dehydrogenation
19%
Metal complexes
19%
Ferromagnetic materials
19%
Energy barriers
19%
Porphyrins
18%
DNA
18%
Energy gap
17%
Catalysts
16%
Metals
16%
Electronic properties
16%
Temperature
16%
Electrocatalysts
16%
Photocatalysts
15%
Electronic structure
15%
Methanol fuels
15%
Adsorption
15%
Charge distribution
15%
Graphitic Carbon Nitride
14%
Optical band gaps
13%
Anisotropy
13%
Pyridine
13%
Hydrogen storage
13%
Hydrogenation
13%
Protons
12%
Manganese
12%
Free energy
11%
Boron
11%
Chemical Compounds
Spintronics
100%
Ferromagnetism
89%
Curie Temperature
52%
Photocatalysis
39%
Density Functional Theory
37%
Monolayer
33%
Band Gap
32%
Gas Sensor
31%
Metal Organic Framework
27%
Magnetic Anisotropy
27%
Graphene
25%
Oxalonitrile
25%
Energy
23%
Platinum
23%
Reduction
22%
Ferromagnetic Material
21%
Electron Spin
21%
Strain
21%
Boron Atom
20%
Electronic Property
20%
Dehydrogenation
19%
Hexagonal Space Group
19%
Transition Element
17%
Catalyst
16%
Metal
15%
Application
15%
Anisotropy
14%
Magnetoresistance
14%
Dioxygen
13%
Nanocage
13%
Purity
13%
Spin-Orbit Coupling
12%
Gas
12%
Work Function
12%
Boron Nitride
11%
Nonconductor
11%
Gibbs Free Energy
11%
Electronic State
11%
Ligand
11%
Nitrobenzene
10%
Cleavage
10%
Ambient Reaction Temperature
10%
Energy Barrier
10%
Enzyme Kinetics
10%
Charge Separation
10%
Surface
10%
Nitric Oxide
9%
Semiconductor
9%
Hydrogen
9%
Catalysis
9%
Physics & Astronomy
metals
31%
ferromagnetism
30%
metallicity
30%
graphene
27%
functionals
26%
ligands
24%
sensors
19%
density functional theory
17%
boron phosphides
17%
selectivity
17%
carbenes
16%
gases
16%
electrocatalysts
15%
nitrobenzenes
14%
Curie temperature
14%
adducts
13%
electronics
13%
albumins
13%
serums
12%
polarization (charge separation)
12%
nanoclusters
11%
hydrogenation
11%
interactions
11%
deoxyribonucleic acid
11%
boron nitrides
11%
acids
10%
manganese
10%
charge distribution
10%
thermodynamic properties
9%
catalysts
9%
phenyls
9%
copper
9%
boron
8%
pyridines
8%
room temperature
8%
mechanical properties
8%
adsorption
7%
molecules
7%
oxidation
7%
orbits
7%
sensitivity
6%
aniline
6%
protons
6%
water splitting
6%
oxygen
6%
orbitals
6%
transition metals
5%
defects
5%
electron transfer
5%
optoelectronic devices
5%