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Reaction pathways and deactivation mechanisms of isostructural Cr and Fe MIL-101 during liquid-phase styrene oxidation by hydrogen peroxide
Rachel A. Yang,
Michele L. Sarazen
Chemical & Biological Engineering
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peer-review
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Dive into the research topics of 'Reaction pathways and deactivation mechanisms of isostructural Cr and Fe MIL-101 during liquid-phase styrene oxidation by hydrogen peroxide'. Together they form a unique fingerprint.
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Engineering & Materials Science
Hydrogen peroxide
100%
Styrene
87%
Oxidation
68%
Liquids
51%
Oxides
22%
Leaching
20%
Metals
16%
Carbon
12%
Aldehydes
12%
Spectroscopy
9%
Acids
7%
Catalysts
7%
Scanning electron microscopy
6%
Defects
5%
Chemical Compounds
Styrene
62%
Hydrogen Peroxide
59%
Styrene Oxide
50%
Oxidation Reaction
34%
Product Distribution
26%
Benzaldehyde
24%
Leaching
23%
Metal
17%
Electrophilicity
15%
Nanoporosity
12%
Epoxide
11%
Aromatic Structure
11%
Transition State
10%
Aldehyde
8%
Spectroscopy
8%
Strength
8%
UV/VIS Spectroscopy
8%
Fourier Transform Infrared Spectroscopy
7%
Catalyst
5%
Reaction Yield
5%