Keyphrases
2,5-bis(hydroxymethyl)furan
59%
Pd Precatalyst
59%
Niobia
59%
Niobic Acid
59%
Overcoating
59%
Catalyst Overcoating
59%
Improved Catalysts
59%
Catalyst Selectivity
59%
Non-hydrolytic Sol-gel
59%
CuAl2O4
59%
Renewable Chemistry
29%
Lignin Depolymerization
29%
High Oxygen Content
29%
Mononuclear Copper
19%
Fine Distribution
19%
Copper Material
19%
Supported Copper
19%
Supported Copper Nanoparticles
19%
Xylose Dehydration
19%
Acidic Peptide
17%
Protein-mineral Interactions
17%
Basic Residues
17%
Amorphous ZrO2
14%
Sintering Resistant
14%
Reductive Treatment
14%
Selective CO2 Conversion
14%
Gel-based
14%
Pd Clusters
14%
High-rate Stability
14%
C-O Cleavage
14%
Renewable Applications
14%
Particle Sintering
14%
Supported Metal Nanoparticles
11%
Sol-gel Chemistry
11%
Propyl Guaiacol
11%
Ethoxide
10%
Friedel-Crafts Alkylation
10%
Catalyst Regeneration
10%
Ordered Pore
10%
High Surface Area Materials
10%
Lignin-derived
10%
Chemistry Method
10%
Mild Method
10%
Conformality
10%
Alumina Deposition
10%
Alkoxide Precursors
10%
Base Catalyst
10%
N-butylcyclohexane
10%
Hydrolysis Kinetics
10%
Hydrolytic Condensation
10%
Chemistry
5-Hydroxymethylfurfural
59%
Surface Area
59%
Furan
59%
Silicon Dioxide
59%
Hydrogenation
59%
catalyst stability
59%
Calcination
59%
Copper Atom
40%
X Ray Absorption Spectroscopy
40%
Nitrous Oxide
40%
Heterogeneous Catalysis
40%
Carbonyl Group
19%
formation
19%
Nanoparticle
19%
Powder X-Ray Diffractometry
19%
Catalyst Deactivation
19%
Friedel-Crafts Alkylation
14%
Catalyst Regeneration
14%
Ethoxide
14%
Supported Metal Catalyst
11%
Hydrolysis Kinetics
11%
Furfural
11%
Hydrodeoxygenation
11%
Chelating Agent
11%
Material Science
Surface (Surface Science)
100%
Hydrogenation
71%
Oxide Compound
59%
Nucleation
59%
Zirconia
59%
Surface Structure
59%
Nuclear Magnetic Resonance
59%
X-Ray Absorption Spectroscopy
40%
Carbon Dioxide
35%
Nanoparticle
31%
Sintering
23%
Metal Oxide
23%
Powder X-Ray Diffraction
19%
Catalyst Deactivation
19%
Surface Characterization
19%
Catalyst Selectivity
14%
Catalyst Regeneration
14%
Thermal Stability
11%
Particle Growth
11%
Sol-Gel
11%
