Engineering
Scavenging
100%
Thin-Film Composite
66%
Mixed Matrix Membrane
61%
Nanofiltration Membrane
55%
Membrane Reactor
50%
Graphene Oxide
50%
Membrane Technology
50%
Separation Performance
50%
Methane
50%
Modified Glass
50%
Separation Gas
37%
Hydrophilicity
36%
Offshore Oil
36%
Offshore Gas
36%
Fouling
30%
Environmental Impact
25%
Layer Thickness
25%
Nanofiltration
25%
Optimal Value
25%
Interfacial Polymerization
25%
Offshore Installation
25%
Physicochemical Property
25%
Thin Films
22%
Phase-Inversion
18%
Nanocomposite Membrane
16%
Reactor Technology
12%
Reversed Osmosis
12%
Composite Coating
12%
Crystallinity
12%
Clean Energy
12%
Porosity
12%
Hybrid Filler
12%
Flammable Gas
12%
Energy Production
12%
Significant Change
12%
FTIR Spectroscopy
11%
Glass Content
8%
Remarkable Increase
5%
Nanocomposites
5%
Nanofiller
5%
Membranes Separation
5%
Gas Production
5%
Bulk Layer
5%
Keyphrases
Facile Fabrication
50%
Ultrafiltration Membrane Reactor
50%
Oxide Additives
50%
Advanced Membrane Technology
50%
NH2-MIL-125
50%
H2 Purification
50%
C2H4 Purification
50%
Modified Glass Fibers
50%
Polymer Composite Membrane
50%
Polysulfone
50%
Non-volatile Compounds
50%
Pyrolysis Behavior
50%
Thermodynamic Prediction
50%
Product Network
50%
PES Membrane
28%
Gas Selectivity
28%
Polyethylene Terephthalate Membranes
25%
Nanofiltration Membrane
14%
N2 Selectivity
14%
Hybrid Filler
14%
Thin-film Composite Nanofiltration Membrane
12%
Mixed Matrix Membrane
12%
Aromatic Groups
12%
Complete Decomposition
12%
Chopped Strand Mat
8%
Solid Ammonia
8%
Aeration Efficiency
8%
Isophthalic Polyester Resin
8%
Glass Content
8%
Composite Disk
8%
Activated Carbon Composite
7%
Titania Nanotubes
7%
Composite Coating
7%
PFOA Removal
7%
Osmosis Process
7%
Photocatalytic
7%
Pressure Input
7%
Concentrated Brine
7%
Membrane Reactor Technology
7%
CH4-CO2
7%
Gas Separation Technologies
7%
Gas Permeation
7%
Separation Applications
7%
Morphology Stability
7%
Gas Upgrading
7%
Functionalized Graphene Oxide
6%
Selective Separation
6%
Strong Interfacial Interaction
6%
XRD Technique
6%
Nanoparticle Loading
6%
Material Science
Carbon Dioxide
100%
Metal-Organic Framework
90%
Graphene
50%
Gas Permeability
50%
Nanoparticle
50%
X-Ray Diffraction
31%
Scanning Electron Microscopy
31%
Nanosheet
30%
Thermogravimetric Analysis
25%
Pore Size
15%
Fourier Transform Infrared Spectroscopy
11%
Advanced Material
10%
Thermal Property
10%
Thermal Stability
10%
Morphology
10%
Chemical Property
10%
Tensile Strain
5%
Composite Material
5%
Ultimate Tensile Strength
5%