Ingeniería y ciencia de los materiales
Photocatalytic activity
100%
Ions
85%
Photocatalysts
82%
Charge transfer
69%
Nanotubes
58%
Electrons
52%
Heterojunctions
51%
Hydrogen production
47%
Oxides
46%
Composite materials
45%
Electrolytes
42%
Characterization (materials science)
41%
Thin films
41%
Charge carriers
40%
Oxide films
39%
Oxidation
36%
Cyanides
36%
Scanning electron microscopy
36%
X ray photoelectron spectroscopy
35%
Electrodes
34%
Photodegradation
34%
Water
32%
Nitrophenols
32%
Irradiation
32%
Titanium dioxide
30%
Supercapacitor
29%
Carbon
29%
Degradation
27%
Sodium hydroxide
27%
Energy storage
25%
Catalysts
25%
Crystals
24%
Coatings
24%
Nanostructures
23%
Capacitance
23%
Semiconductor materials
23%
Doping (additives)
23%
Copper
23%
Bioactivity
23%
Electrochemical properties
23%
Electron energy levels
22%
Bioactive glass
22%
Multiwalled carbon nanotubes (MWCN)
21%
Transition metals
20%
Oxygen vacancies
20%
Sugar (sucrose)
20%
Foams
20%
Aluminum oxide
20%
Spectroscopy
20%
Hydrogen
20%
Química
Liquid Film
87%
Photocatalytic Activity
47%
Anodizing
39%
Composite Material
38%
Nanotube
35%
Electrophoretic Deposition
34%
Titanium Dioxide
32%
Oxide
30%
Ion
28%
Modification
27%
Fluoride
27%
Crystal Orientation
27%
Energy Storage
27%
Charge Transfer
26%
Charge Carrier
23%
4-Chlorophenol
22%
Cyanide
21%
4-Nitrophenol
21%
Surface State
19%
Environmental Pollutant
19%
Co-Catalyst
19%
Photodegradation
18%
Coating Agent
17%
Nanoporosity
15%
Surface
15%
Carbon Atom
15%
Application
14%
Energy State
14%
Resistance
14%
Multi Walled Nanotube
13%
Nanomaterial
13%
Semiconductor
13%
Diffuse Reflectance Spectroscopy
13%
Oxidation Reaction
13%
Electron Particle
12%
Foam
12%
Bioactivity
12%
Iopromide
12%
Sol Gel Process
12%
Behavior as Electrode
12%
Chemical Transformation
12%
Porosity
11%
Electric Field
11%
Surface Area
11%
Band Gap
11%
Physisorption
11%
Reduction
11%
UV/VIS Spectroscopy
11%
Photocatalytic Reduction
11%
Hydrogen
10%
Física y astronomía
charge transfer
27%
hydrogen production
27%
ions
25%
electric batteries
24%
nanotubes
22%
performance
21%
thin films
21%
composite materials
20%
cyanides
19%
fluorides
18%
anatase
17%
scanning electron microscopy
17%
characterization
17%
irradiation
17%
ion storage
16%
glycols
15%
nanoparticles
15%
heterojunctions
14%
electrolytes
13%
oxides
13%
crystals
13%
anodes
13%
electrodeposition
12%
carbon nanotubes
12%
copper
11%
degradation
11%
hydroxides
10%
ethyl alcohol
10%
insertion
10%
aqueous solutions
10%
moisture content
10%
carboxylic acids
10%
cadmium
10%
hydrogen
9%
dendrimers
9%
methylene blue
9%
water
9%
ethylene
9%
oxide films
9%
coordination polymers
9%
catalysts
8%
indium oxides
8%
tin oxides
8%
photochemical reactions
8%
transmission electron microscopy
8%
sunlight
8%
energy storage
7%
pretreatment
7%
barrier layers
7%
coating
7%