Engineering & Materials Science
X ray photoelectron spectroscopy
100%
Nanoparticles
90%
Catalysts
63%
X ray diffraction
56%
Scanning electron microscopy
54%
Acids
51%
Nanostructures
50%
Photocatalysts
50%
Oxides
49%
Optical properties
49%
Thin films
48%
Oxidation
46%
Microscopic examination
45%
Atomic force microscopy
43%
Polypyrroles
43%
Temperature
43%
Adsorption
42%
Transmission electron microscopy
41%
Polymerization
40%
Ions
40%
Spectroscopy
38%
Composite materials
37%
Characterization (materials science)
37%
Carbon nanotubes
36%
Dyes
36%
Water
36%
Carbon
34%
Electrocatalysts
34%
Substrates
33%
Boriding
31%
Surface active agents
31%
Photodegradation
31%
Nuclear magnetic resonance
30%
Powders
28%
Chemical analysis
27%
Degradation
26%
Aluminum oxide
26%
Irradiation
26%
Structural properties
25%
Coatings
25%
Electrooxidation
25%
Raman spectroscopy
25%
Proteins
25%
Doping (additives)
25%
Electric properties
25%
High resolution transmission electron microscopy
23%
Nitrogen
23%
Electrons
23%
Energy gap
23%
Zinc oxide
22%
Gold nanoparticles
22%
Methanol
22%
Steel
21%
Polymers
21%
Heterojunctions
21%
Thin film transistors
21%
Electrodes
21%
Oxide films
21%
Indentation
21%
Photoluminescence
21%
Metals
20%
Cadmium sulfide
20%
Hardness
20%
Fruits
20%
Titanium dioxide
20%
Oxygen reduction reaction
19%
Electron energy loss spectroscopy
19%
Mechanical properties
19%
Metabolomics
19%
Semiconductor materials
19%
Scanning
19%
Wear of materials
18%
Molecules
18%
Copper
18%
Hydrogen production
18%
Cellulose
18%
Platinum
18%
Nanocomposites
18%
Pulsed laser deposition
18%
Starch
18%
Hot Temperature
18%
Tissue
18%
Annealing
17%
Biopolymers
17%
Microstructure
17%
Hydrodesulfurization
17%
Catalyst activity
17%
Borides
16%
Optical Kerr effect
16%
Liposomes
16%
Cerium oxide
16%
Monomers
16%
Zein
16%
Photocatalytic activity
16%
Nanorods
16%
Fourier transform infrared spectroscopy
16%
Corrosion
16%
Lasers
16%
MOSFET devices
15%
Chemistry
Liquid Film
60%
Nanoparticle
48%
Surface
39%
Atomic Force Microscopy
32%
Nanomaterial
31%
Polypyrrole
31%
X-Ray Photoelectron Spectroscopy
30%
Composite Material
29%
Food
29%
Oxide
28%
X-Ray Diffraction
28%
Application
28%
Scanning Electron Microscopy
26%
Wear
25%
Time
25%
Catalyst
25%
Band Gap
24%
Polymerization Reaction
24%
Semiconductor
24%
Optical Property
24%
10,16-Dihydroxyhexadecanoic Acid
23%
Two Wave Mixing
21%
Alloy
21%
Carbon Nanotube
20%
Oxidation Reaction
20%
Microstructure
20%
Dye
20%
Coating Agent
20%
Starch
18%
Carbon Atom
18%
Surfactant
18%
Ion
18%
Electrical Property
18%
Adsorption
18%
Nanocomposite
18%
Photodegradation
16%
Transmission Electron Microscopy
16%
Multi Walled Nanotube
15%
Pulsed Laser Deposition
15%
Chitosan
15%
Reduction
15%
Simulation
15%
Resistance
15%
Corrosion
14%
pH Value
14%
Spectroscopy
14%
Confocal Laser Scanning Microscopy
14%
Cadmium Sulfide
14%
Prostaglandin
14%
Electrooptical Effect
14%
Cutin
14%
Acid
14%
Gastroprotective
14%
Metabolite
14%
UV/VIS Spectroscopy
13%
Energy
13%
Oxalonitrile
13%
Raman Spectroscopy
13%
Force
13%
Fourier Transform Infrared Spectroscopy
13%
Zinc Oxide
13%
Methanol
13%
Nitric Oxide
13%
Hydrodesulfurization
13%
Luminiscence Type
13%
Amorphous Material
12%
Annealing
12%
Metabolic
12%
Gold Nanoparticle
12%
Plasma
12%
Protein
12%
Hydrogen
12%
Liposome
12%
Behavior as Electrode
12%
Disorder
12%
Titanium Dioxide
11%
Micromachining
11%
Schottky Barrier
11%
Modification
11%
Reaction Yield
11%
Biopolymer
11%
Encapsulation
11%
Essential Oil
11%
Sintering
11%
Monomer
11%
Gas
11%
Aqueous Solution
10%
Valence Band
10%
Dioxygen
10%
Fracture Toughness
10%
Mixture
10%
Crystalline Texture
10%
Diffusion
10%
Wavelength
10%
Palm Oil
10%
Freeze Drying
10%
Polyester
10%
Antimicrobial Agent
10%
Spray Pyrolysis
10%
Electron Energy Loss Spectroscopy
9%
Physics & Astronomy
nanoparticles
55%
synthesis
50%
x rays
33%
characterization
32%
thin films
30%
electrocatalysts
27%
carbon nanotubes
26%
photoelectron spectroscopy
26%
oxidation
24%
catalysts
24%
carbon
21%
atomic force microscopy
21%
oxides
20%
spectroscopy
20%
transistors
19%
transmission electron microscopy
19%
scanning electron microscopy
19%
steels
19%
diffraction
19%
acids
18%
oxygen
18%
polymerization
17%
zinc oxides
16%
fuel cells
16%
surfactants
16%
tomatoes
16%
adsorption
16%
composite materials
16%
optical properties
15%
dyes
15%
polypyrroles
14%
sensors
14%
cadmium sulfides
14%
floating
14%
pyrolysis
13%
carbon nitrides
13%
gold
13%
irradiation
13%
nitrogen
13%
methyl alcohol
12%
microscopy
12%
degradation
12%
proteins
12%
borides
12%
water
12%
coatings
12%
Schottky diodes
11%
polymers
11%
temperature
11%
cyanuric acid
11%
graphene
11%
silver
11%
pulsed laser deposition
11%
microelectromechanical systems
10%
melamine
10%
erosion
10%
ions
10%
performance
10%
annealing
10%
energy dissipation
10%
platinum
9%
hardness
9%
metals
9%
evaluation
9%
wear resistance
9%
polyesters
9%
nuclear magnetic resonance
9%
high resolution
9%
CMOS
9%
monomers
9%
copper
9%
electrodes
9%
nanocomposites
9%
electron energy
9%
electrical properties
9%
adhesion
8%
alcohols
8%
aqueous solutions
8%
nickel
8%
Bacillus
8%
ligands
8%
corrosion
8%
ethyl alcohol
8%
magnetron sputtering
8%
sliding
8%
antibodies
8%
indentation
8%
scanning
8%
catalytic activity
8%
kinetics
8%
electronics
8%
electrolytes
8%
anatase
8%
mixed oxides
8%
prostaglandins
8%
damage
8%
bacteria
7%
sprayers
7%
infrared spectroscopy
7%
nanorods
7%