Chemistry
Nuclear Magnetic Resonance Relaxation
75%
NMR Spectroscopy
53%
Nuclear Spin
52%
Spin Relaxation
47%
Porosity
42%
Relaxation
38%
Meso Porosity
36%
Micro Porosity
32%
Silicon Dioxide
28%
Surface Reaction
22%
Catalyst Support
22%
Low Field Nuclear Magnetic Resonance
21%
Mesoporous Silica
21%
Saturated Liquid
19%
Magnetic Field
16%
Energetics
16%
acidity
15%
1H NMR Spectroscopy
15%
Pore Structure
14%
Chemical Passivation
14%
Methanol
14%
Liquid Interface
14%
Density Functional Theory
14%
Two-Dimensional NMR
13%
Aluminum Oxide
13%
Surface Chemistry
12%
Primary Alcohols
12%
Hydroxyl
12%
Topography
11%
Desorption
9%
Spin Diffusion
9%
Magnetic Temperature
9%
Ethylene Glycol
9%
Base
9%
Nanoparticle
9%
Cyclohexane
8%
Hydroxyl Group
8%
Heterogeneous Catalysis
8%
Physical Chemistry
7%
Chemical Engineering
7%
Density Functional Theory
7%
Relaxation Time Measurement
7%
Self-Diffusion
7%
Adsorption Energy
7%
Industrial Chemistry
6%
Phase Composition
6%
Mass Transport
6%
Hydrogen
6%
Porous Media
6%
Catalysis
5%
Material Science
Surface (Surface Science)
100%
Nuclear Magnetic Resonance Relaxation
96%
Nuclear Magnetic Resonance
78%
Spin Relaxation
61%
Zeolite
35%
Adsorbate
33%
Silicon Dioxide
24%
Low Field Nuclear Magnetic Resonance
23%
Mesoporous Silica
23%
Aluminum Oxide
23%
Catalysis
22%
Catalyst Support
22%
Carbon Dioxide
19%
Pore Structure
19%
Carbon Surface
16%
Liquid Interface
16%
Pulsed Field Gradients
14%
Surface Topography
12%
Compressive Strength
11%
Functional Material
11%
Density
10%
Microstructural Evolution
9%
Chemical State
9%
Spin Diffusion
9%
Nuclear Magnetic Resonance Spectroscopy
9%
Desorption
9%
Energy Density
9%
Kinetic Order
9%
Materials Property
9%
Pore Size
8%
Self-Diffusion
7%
Diffusivity
6%
Engineering
Methane
28%
Support Material
26%
Nuclear Magnetic Resonance
21%
Porosity
21%
Relaxation Time
20%
Hydrogen Liquefaction
19%
Two Dimensional
16%
Flux Density
14%
Rock Core
10%
Diffusive
9%
Quantitative Measurement
9%
Field Gradient
9%
Microstructural Evolution
9%
Geopolymer
9%
Hydrated Material
9%
Nuclear Spin
9%
Sensitive Surface
9%
Indirect Method
9%
Pore Diffusion
9%
Hydroxylated Surface
9%
Functional Group
9%
Magnetic Field
9%
Covered Surface
9%
Phase Composition
9%
Discrete Fourier Transform
9%
Mass Transport
9%
Sparsity
9%
Pressure Range
9%
Kinetic Expression
9%
Reactor Design
9%
Liquefaction Process
9%
Kinetic Parameter
9%
Parameter Uncertainty
9%
Liquid Hydrogen
9%
Silicon Dioxide
8%
Compressive Strength
6%
Compression Strength
6%