Chemistry
Acid
20%
Amount
20%
Application
13%
Aqueous Solution
13%
Biomass
14%
Carbon Fiber
14%
Catalyst
100%
Chemical Kinetics Characteristics
74%
Chemical Reaction
65%
Chemical Reaction Product
44%
Concentration
12%
Depolymerization
42%
Dioxygen
22%
Energy
15%
Formic Acid
15%
Fractionation
12%
Fuel
23%
Glucose
31%
Hemicellulose
27%
Hydrogen
45%
Hydrogenation
95%
Hydrolysis
57%
Hydrothermal Synthesis
17%
Lignin
17%
Metal
15%
Methane
13%
Mixture
14%
Monomer
15%
Oxidation Reaction
15%
Particle Size
13%
Potential
31%
Pressure
16%
Procedure
70%
Reaction Condition
25%
Reaction Selectivity
35%
Reaction Temperature
31%
Reaction Time
12%
Reaction Yield
25%
Reactor
18%
Reforming Reaction
28%
Solid
36%
Sorption
30%
Structure
26%
Synthesis (Chemical)
16%
Water Type
36%
X-Ray Diffraction
13%
Xylan
16%
Xylitol
25%
Xylose
39%
Zeolite
59%
Chemical Engineering
Acid
20%
Activated Carbon
7%
Adsorption
12%
Alcohol
7%
Carbon
38%
Carbon Dioxide
30%
Carbon Fiber
14%
Carbon Monoxide
10%
Catalyst Deactivation
5%
Cerium Compound
8%
CO2 Conversion
17%
Deposition
5%
Extraction
15%
Formic Acid
35%
Fractionation
12%
Fructose
10%
Glucose
31%
Hydrogen
68%
Iron Ore
8%
Iron Oxide
34%
Lignin
17%
Mass Transfer
23%
Methane
8%
Mineral
8%
Monomer
15%
Nickel
18%
Nitrogen
5%
Oxygen
22%
Paraffin
13%
Physisorption
10%
Polymer
8%
Ruthenium
7%
Sorption
25%
Sugar
5%
Temperature
28%
Temperature Programmed Desorption
5%
Thermodynamics
12%
Water
36%
Xylose
49%
Engineering
Acid
12%
Alkane
6%
Aqueous-Phase Reforming
30%
Catalyst Support
5%
Cluster Size
8%
Core Model
25%
Deep Understanding
8%
Economics
17%
Elements
8%
Environmental Impact
17%
Evaluation
8%
Experimental Result
17%
Fixed Bed
17%
Fixed Bed Reactor
21%
Heterogeneous Catalyst
30%
Hydrogen Production
9%
Hydrogenation
34%
Iron Ore Reduction
8%
Kinetic
8%
Laboratories
8%
Mass Transfer
17%
Mathematical Model
25%
Mechanical Pulp
8%
Model Parameter
17%
Models
15%
Particle Size
8%
Performance
11%
Physisorption
5%
Pretreatment
5%
Reaction Mixture
6%
Reaction Temperature
6%
Reductants
17%
Reduction
17%
Reduction Process
8%
Side Stream
12%
Specific Heat Capacity
12%
Supports
20%
Temperature
11%
Yields
13%