Engineering & Materials Science
Nanoparticles
92%
Agglomeration
90%
Nanocrystals
78%
Metal-Organic Frameworks
67%
Titanium dioxide
56%
Crystal growth
53%
Particle size
47%
Crystals
44%
Zeolites
43%
Transmission electron microscopy
42%
Dissolution
42%
Nucleation
38%
TiO2 nanoparticles
34%
Sol-gels
30%
Phase transitions
30%
Iron oxides
29%
Metalorganic frameworks
29%
Coarsening
29%
Titanium
24%
Aging of materials
24%
Ionic strength
24%
Silver nanoparticles
23%
Cobalt
22%
Ethylene glycol
22%
Temperature
21%
Negative ions
21%
Cryogenics
21%
Acids
19%
Biological materials
18%
Crystalline materials
18%
Adsorption
17%
Ligands
16%
ZnO nanoparticles
16%
Surface active agents
16%
Positive ions
16%
Ions
15%
Single crystals
15%
Surface chemistry
15%
Growth kinetics
15%
Minerals
15%
Crystallites
14%
Rate constants
14%
Thin films
14%
Crystallinity
14%
Iron
14%
Solubility
13%
Molecules
13%
Modulators
13%
Isomers
13%
Chemical Compounds
Nanoparticle
79%
4-Chloronitrobenzene
65%
Nanocrystal
52%
Crystal Growth
51%
Metal Organic Framework
41%
Mineral
40%
Titanium Dioxide
39%
Dissolution
32%
Nucleation
32%
Titanium Dioxide Nanoparticle
31%
Zeolite
29%
Suspension
27%
pH Value
27%
Transmission Electron Microscopy
26%
Organic Matter
26%
Rutile
26%
Hematite
25%
Iron Oxide
24%
Groundwater
22%
Magnetite
21%
Reduction
21%
Cryogenics
21%
Chemical Transformation
20%
Molecular Cluster
20%
Surface
20%
Soil
20%
Rate Constant
18%
Iron Oxide Nanoparticle
17%
Crystal Morphology
17%
Ionic Strength
17%
Surface Area
16%
Silver Nanoparticle
16%
Ethylene Glycol
15%
Adsorption
15%
Hydroquinone
15%
Oxide
15%
Magnetization
14%
Single Crystalline Solid
13%
Crystallite
13%
Humic Acid
12%
Environment
12%
Chemistry
12%
Shape
12%
Crystallinity
12%
Metal
12%
Substitution Reaction
11%
Antiferromagnetic
11%
Time
11%
Microstructure
11%
Oxidation Reaction
11%
Physics & Astronomy
nanoparticles
100%
kinetics
38%
anatase
37%
crystal growth
37%
nanocrystals
34%
minerals
33%
synthesis
32%
dissolving
32%
transmission electron microscopy
30%
reactivity
26%
hematite
25%
nucleation
25%
phase transformations
24%
iron oxides
23%
magnetite
22%
rutile
21%
iron
20%
titanium oxides
20%
titanium
16%
crystals
15%
cobalt
15%
x rays
15%
zeolites
15%
glycols
15%
soils
14%
gels
14%
products
14%
cryogenics
14%
silver
13%
crystal morphology
13%
attachment
12%
magnetization
12%
silicon dioxide
12%
surfactants
12%
acids
11%
contaminants
11%
anions
10%
ligands
10%
aluminum
10%
magnetic properties
10%
nanorods
10%
rocks
9%
seeds
9%
temperature
9%
solubility
9%
water
9%
substitutes
9%
metals
9%
ethylene
9%
rivers
9%