INIS
absorption spectroscopy
13%
adsorption
15%
alcohols
25%
aluminium chlorides
10%
applications
18%
bromides
12%
carbon dioxide
25%
catalysts
100%
cations
14%
chains
13%
comparative evaluations
21%
conversion
27%
coupling
18%
crystal structure
11%
cycloalkenes
13%
design
14%
desulfurization
19%
emission
16%
epoxides
25%
heterogeneous catalysis
9%
hydrocarbons
19%
hydrogen 1
10%
ions
18%
lewis acids
16%
ligands
22%
metals
52%
methanol
13%
nanoparticles
14%
nanostructures
18%
nitrogen dioxide
26%
one-dimensional calculations
14%
organometallic compounds
67%
oxidation
66%
oxygen
23%
performance
28%
polymers
14%
porphyrins
29%
range
15%
rings
14%
schiff bases
9%
solids
17%
solvents
12%
spectroscopy
17%
stability
36%
synthesis
31%
tetrathiafulvalene
9%
tuning
11%
units
18%
values
13%
xrd
13%
Chemistry
Absorption Spectroscopy
9%
Aluminum
9%
Amino Group
11%
Autoxidation
9%
Benzyl Alcohol
8%
Benzylamine
9%
Bifunctional Catalyst
9%
Butylbenzene
9%
Carbon Nanotube
9%
Catalysis
11%
Chemistry
9%
CO2 Conversion
9%
Copolymer
9%
Crystal Structure
10%
Cycloalkene
12%
Cyclodextrin
9%
Dehalogenation
9%
Desulfurization
19%
Dibenzothiophene
24%
Dodecane
11%
Electron Transport
9%
EPR Spectroscopy
9%
Ethylbenzene
8%
Gold Nanoparticle
9%
Heterogeneous Catalyst
31%
Lanthanum
9%
Lewis Acid
9%
Metal Organic Framework
37%
Metal-Organic Framework
21%
Methanol
9%
Micro Porosity
14%
Multi-Walled Carbon Nanotube
9%
Nanofiber
9%
Nanoparticle
9%
Nitrogen Dioxide
19%
Oxidation Reaction
14%
Photoredox
9%
Porphyrin
14%
Prins Reaction
11%
Ruthenium
9%
Schiff Base
9%
Selective Oxidation
9%
Silsesquioxane
9%
Solar Cell
9%
Surface Area
12%
Terephthalic Acid
9%
Tetrathiafulvalene
9%
Thiophenol
9%
Tris
9%
UiO-66
19%
Keyphrases
Acid-catalyzed Reaction
9%
Aerobic Oxidative Desulfurization
9%
Al-porphyrin
9%
AlCl
8%
Alkene Oxidation
9%
Aluminum Porphyrin
9%
Au@MIL-101
9%
Benzyl Alcohol Oxidation
9%
Benzylamine
9%
Benzylic Hydrocarbon
9%
Catalytic Activity
9%
Cross-linked Copolymers
9%
Dehalogenation
9%
Dimensional Coordination
9%
Double-decker Silsesquioxane
9%
G-CDs
9%
Highly Conductive
9%
Imidazolium Bromide
9%
Lewis Acid Catalysis
9%
Ligand Substitution
9%
Long-term Photostability
9%
N-butylbenzene
9%
NH2-MIL-101(Fe)
19%
NH2-MIL-125
9%
Ni Metal
9%
Oxidative Desulfurization
9%
Oxidizing Reagent
9%
Oxygen Activation
9%
Photoredox Catalyst
9%
Poly(3,4-ethylendioxythiophene)
9%
Polymer Nanofibers
9%
Postsynthetic Exchange
9%
Prins Reaction
9%
Templateless Synthesis
9%
Terephthalic Acid
9%
UiO-66
6%
UiO-66-NH2
9%
UiO-67
9%