Difunctionalization of Alkenes Involving Metal Migration

The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity in synthetic organic chemistry. In contrast with the 1,2‐difunctionalization of alkenes, recent advances showcase alkene 1,n‐difunctionaliza...

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Published in	Angewandte Chemie International Edition Vol. 59; no. 21; pp. 7990 - 8003
Main Authors	Li, Yuqiang, Wu, Dong, Cheng, Hong‐Gang, Yin, Guoyin
Format	Journal Article
Language	English
Published	Germany Wiley Subscription Services, Inc 18.05.2020
Edition	International ed. in English
Subjects	Alkenes Chemical bonds Organic chemistry reaction mechanisms regioselectivities synthetic methods transition metals reaction mechanisms regioselectivities alkenes synthetic methods transition metals
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Abstract	The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity in synthetic organic chemistry. In contrast with the 1,2‐difunctionalization of alkenes, recent advances showcase alkene 1,n‐difunctionalizations (n≠2) involving metal migration is an emerging and rapidly growing area of research. This promising strategy not only opens a novel avenue for future development of alkene transformations, but also significantly expands upon the bond disconnections available in modern organic synthesis. This Minireview summarizes recent progress in the migratory difunctionalization of alkenes, with an emphasis on the driving force for metal migration. Driving force: The difunctionalization of alkenes involving metal migration provides access to a new class of products that are not readily synthesized by other methods. This Minireview summarizes recent advances in the field, with an emphasis on the driving force for metal migration.
AbstractList	The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity in synthetic organic chemistry. In contrast with the 1,2‐difunctionalization of alkenes, recent advances showcase alkene 1,n‐difunctionalizations (n≠2) involving metal migration is an emerging and rapidly growing area of research. This promising strategy not only opens a novel avenue for future development of alkene transformations, but also significantly expands upon the bond disconnections available in modern organic synthesis. This Minireview summarizes recent progress in the migratory difunctionalization of alkenes, with an emphasis on the driving force for metal migration. The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity in synthetic organic chemistry. In contrast with the 1,2‐difunctionalization of alkenes, recent advances showcase alkene 1,n‐difunctionalizations (n≠2) involving metal migration is an emerging and rapidly growing area of research. This promising strategy not only opens a novel avenue for future development of alkene transformations, but also significantly expands upon the bond disconnections available in modern organic synthesis. This Minireview summarizes recent progress in the migratory difunctionalization of alkenes, with an emphasis on the driving force for metal migration. Driving force: The difunctionalization of alkenes involving metal migration provides access to a new class of products that are not readily synthesized by other methods. This Minireview summarizes recent advances in the field, with an emphasis on the driving force for metal migration. The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity in synthetic organic chemistry. In contrast with the 1,2‐difunctionalization of alkenes, recent advances showcase alkene 1, n ‐difunctionalizations ( n ≠2) involving metal migration is an emerging and rapidly growing area of research. This promising strategy not only opens a novel avenue for future development of alkene transformations, but also significantly expands upon the bond disconnections available in modern organic synthesis. This Minireview summarizes recent progress in the migratory difunctionalization of alkenes, with an emphasis on the driving force for metal migration. The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity in synthetic organic chemistry. In contrast with the 1,2-difunctionalization of alkenes, recent advances showcase alkene 1,n-difunctionalizations (n≠2) involving metal migration is an emerging and rapidly growing area of research. This promising strategy not only opens a novel avenue for future development of alkene transformations, but also significantly expands upon the bond disconnections available in modern organic synthesis. This Minireview summarizes recent progress in the migratory difunctionalization of alkenes, with an emphasis on the driving force for metal migration.The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity in synthetic organic chemistry. In contrast with the 1,2-difunctionalization of alkenes, recent advances showcase alkene 1,n-difunctionalizations (n≠2) involving metal migration is an emerging and rapidly growing area of research. This promising strategy not only opens a novel avenue for future development of alkene transformations, but also significantly expands upon the bond disconnections available in modern organic synthesis. This Minireview summarizes recent progress in the migratory difunctionalization of alkenes, with an emphasis on the driving force for metal migration.
Author	Li, Yuqiang Wu, Dong Yin, Guoyin Cheng, Hong‐Gang
Author_xml	– sequence: 1 givenname: Yuqiang surname: Li fullname: Li, Yuqiang organization: Wuhan University – sequence: 2 givenname: Dong surname: Wu fullname: Wu, Dong organization: Wuhan University – sequence: 3 givenname: Hong‐Gang orcidid: 0000-0001-9585-9093 surname: Cheng fullname: Cheng, Hong‐Gang email: hgcheng@whu.edu.cn organization: Wuhan University – sequence: 4 givenname: Guoyin orcidid: 0000-0002-2179-4634 surname: Yin fullname: Yin, Guoyin email: yinguoyin@whu.edu.cn organization: Wuhan University
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/31800977$$D View this record in MEDLINE/PubMed
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ContentType	Journal Article
Copyright	2019 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim. 2020 Wiley‐VCH Verlag GmbH & Co. KGaA, Weinheim
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Keywords	reaction mechanisms regioselectivities alkenes synthetic methods transition metals
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Snippet	The direct difunctionalization of alkenes, a cheap and abundant feedstock, represents one of the most attractive strategies for increasing molecular complexity...
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StartPage	7990
SubjectTerms	Alkenes Chemical bonds Organic chemistry reaction mechanisms regioselectivities synthetic methods transition metals
Title	Difunctionalization of Alkenes Involving Metal Migration
URI	https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fanie.201913382 https://www.ncbi.nlm.nih.gov/pubmed/31800977 https://www.proquest.com/docview/2409089749 https://www.proquest.com/docview/2322137406
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