Keyphrases
Continuous Purification
100%
Single Extraction
100%
Functionalized Zeolites
100%
Sulfonic Acid Functionalization
100%
Beta Zeolite
100%
Carbon Nitride
100%
Porous Carbon Nitride
100%
SSZ-13
100%
Dimethyl Ether Carbonylation
100%
Microfluidic Reactor
100%
Radioluminescent
100%
Brønsted Acid Catalysis
100%
Tolualdehyde
100%
Acid-base Sites
100%
Titanium-45
100%
Solvent Consumption
50%
Multi-stage Operations
50%
Melamine
50%
Melamine Cyanurate
50%
Salan
50%
Homogeneous Liquid-liquid Extraction
50%
Integral Pressure
50%
Organic Phase Separation
50%
Radioluminescence
50%
Sulfonic Acid Catalysts
50%
Upgrading Reaction
50%
PET Radioisotopes
50%
Cyclotron Target
50%
Al-substituted
40%
Framework Topology
33%
Brønsted Acidity
25%
Hydroxyalkylation-alkylation
25%
Hollow Spherical
25%
Pluronic P123
25%
Rhodamine B Dye
25%
Water-tolerant
25%
H-Beta
25%
Cyanuric Acid
25%
Moderate Interaction
25%
Mesoporous Carbon Nitride
25%
Dye Degradation
25%
Structure-directing Effect
25%
Carbon Residue
25%
Hollow Tubular
25%
Porous Nanostructures
25%
Colloidal Synthesis
25%
Confined Excitons
25%
X-ray Excitation
25%
Solid Sulfonic Acid
25%
Functionalized SiO2
25%
SiO2 Gel
25%
Para-toluenesulfonic Acid
25%
Electron Redistribution
20%
DRIFTS Study
20%
Reactivity Comparison
20%
TPD-MS
20%
Medium Strength
20%
Natural Bond Orbital Charge
20%
Si Effect
16%
Chabazite
16%
Silicoaluminophosphate
16%
Magic Angle Spinning nuclear Magnetic Resonance Spectroscopy
16%
Framework Al
16%
Mordenite
16%
Small-pore Zeolites
16%
Eight-membered Ring
16%
Ferrierite
16%
Charge Stabilization
16%
Chemistry
Acid Catalyst
100%
Sulfonic Acid
100%
Bronsted Acid
100%
Tolualdehyde
100%
Liquid Water
100%
Radioisotope
100%
Radionuclide
100%
Titanium
100%
Radioluminescence
100%
Positron
100%
Solvent Extraction
100%
Hydrophobicity
66%
Anisole
33%
Flow Kinetics
33%
Phase Separation
33%
Guaiacol
33%
Turnover Number
33%
Natural Bond Orbital
20%
27Al MAS NMR
20%
Mugineic Acid
20%
Mordenite
20%
Chabazite
20%
MAS NMR Spectroscopy
20%
Meso Porosity
16%
Alkylation
16%
2-Methylfuran
16%