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Divergent Reactivity during the Trapping of Benzynes by Glycidol Analogs: Ring Cleavage via Pinacol-Like Rearrangements vs Oxirane Fragmentations
Juntian Zhang,
Thomas R. Hoye
Chemistry (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
9
Scopus citations
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Dive into the research topics of 'Divergent Reactivity during the Trapping of Benzynes by Glycidol Analogs: Ring Cleavage via Pinacol-Like Rearrangements vs Oxirane Fragmentations'. Together they form a unique fingerprint.
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Medicine & Life Sciences
benzyne
100%
pinacol
93%
Cyclic Ethers
87%
glycidol
85%
Ethers
68%
Ethylene Oxide
62%
hydronium ion
42%
Ketones
27%
Aldehydes
26%
Ether
24%
Ions
18%
Oxygen
15%
Chemical Compounds
Glycidol
60%
Benzyne
58%
Cyclic Ether
55%
Ring Cleavage
54%
Oxirane
50%
Fragmentation
36%
Ether
29%
Enol Ether
26%
Ring Expansion
25%
Aldehyde
15%
Cleavage
14%
Chemical Transformation
13%
Dioxygen
10%
Reaction Yield
8%
Physics & Astronomy
ethers
48%
cleavage
44%
reactivity
43%
fragmentation
39%
analogs
35%
trapping
33%
rings
29%
zwitterions
13%
aldehydes
12%
ketones
11%
attack
9%
expansion
5%
oxygen
5%
ions
4%