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Manganese porphyrins catalyze selective C-H bond halogenations
Wei Liu,
John Taylor Groves
Chemistry
High Meadows Environmental Institute
Princeton Materials Institute
Research output
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Contribution to journal
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Article
›
peer-review
242
Scopus citations
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Dive into the research topics of 'Manganese porphyrins catalyze selective C-H bond halogenations'. Together they form a unique fingerprint.
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Engineering & Materials Science
Halogenation
100%
Porphyrins
88%
Chlorination
75%
Manganese
59%
Substrates
30%
Sodium
21%
Regioselectivity
14%
Catalysts
12%
Carbon
10%
Oxygenation
10%
Free radicals
10%
Chlorine
8%
Paraffins
8%
Atoms
7%
Hydrogen
5%
Geometry
4%
Medicine & Life Sciences
Halogenation
66%
Porphyrins
64%
Manganese
60%
Sodium Hypochlorite
28%
Chlorides
22%
norcarane
18%
neopentane
17%
sclareolide
16%
Carbon
14%
decalin
13%
pentabrominated diphenyl ether 100
13%
Cholestanes
12%
Thymidine Monophosphate
10%
Alkanes
10%
Chlorine
9%
Hydrogen
8%
Free Radicals
6%
chloro(5,10,15,20-tetraphenylporphyrinato)manganese(III)
1%
Chemical Compounds
Sodium Hypochlorite
47%
Porphyrin
42%
Chloride
21%
Trans-Decalin
19%
Neopentane
18%
Reaction Yield
15%
Phase-Transfer Catalyst
14%
Aryl Group
14%
Oxygenation
13%
Frontier Orbital
13%
Alkyl Group
12%
Regioselectivity
11%
Carbon Atom
11%
Hydrogen Atom
10%
Chlorine
10%
Amount
10%
Alkane
10%
Catalyst
5%