Fe-Catalyzed C-C Bond Construction from Olefins via Radicals

Julian C. Lo; Dongyoung Kim; Chung Mao Pan; Jacob T. Edwards; Yuki Yabe; Jinghan Gui; Tian Qin; Sara Gutiérrez; Jessica Giacoboni; Myles W. Smith; Patrick L. Holland; Phil S. Baran

doi:10.1021/jacs.6b13155

Fe-Catalyzed C-C Bond Construction from Olefins via Radicals

Julian C. Lo, Dongyoung Kim, Chung Mao Pan, Jacob T. Edwards, Yuki Yabe, Jinghan Gui, Tian Qin, Sara Gutiérrez, Jessica Giacoboni, Myles W. Smith, Patrick L. Holland, Phil S. Baran

Research output: Contribution to journal › Article › peer-review

243 Scopus citations

Abstract

This Article details the development of the iron-catalyzed conversion of olefins to radicals and their subsequent use in the construction of C-C bonds. Optimization of a reductive diene cyclization led to the development of an intermolecular cross-coupling of electronically-differentiated donor and acceptor olefins. Although the substitution on the donor olefins was initially limited to alkyl and aryl groups, additional efforts culminated in the expansion of the scope of the substitution to various heteroatom-based functionalities, providing a unified olefin reactivity. A vinyl sulfone acceptor olefin was developed, which allowed for the efficient synthesis of sulfone adducts that could be used as branch points for further diversification. Moreover, this reactivity was extended into an olefin-based Minisci reaction to functionalize heterocyclic scaffolds. Finally, mechanistic studies resulted in a more thorough understanding of the reaction, giving rise to the development of a more efficient second-generation set of olefin cross-coupling conditions.

Original language	English (US)
Pages (from-to)	2484-2503
Number of pages	20
Journal	Journal of the American Chemical Society
Volume	139
Issue number	6
DOIs	https://doi.org/10.1021/jacs.6b13155
State	Published - Feb 15 2017
Externally published	Yes

ASJC Scopus subject areas

Catalysis
Chemistry(all)
Biochemistry
Colloid and Surface Chemistry

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10.1021/jacs.6b13155

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@article{7f1b4b00d2ee46b3be8285dd4b723fc6,

title = "Fe-Catalyzed C-C Bond Construction from Olefins via Radicals",

abstract = "This Article details the development of the iron-catalyzed conversion of olefins to radicals and their subsequent use in the construction of C-C bonds. Optimization of a reductive diene cyclization led to the development of an intermolecular cross-coupling of electronically-differentiated donor and acceptor olefins. Although the substitution on the donor olefins was initially limited to alkyl and aryl groups, additional efforts culminated in the expansion of the scope of the substitution to various heteroatom-based functionalities, providing a unified olefin reactivity. A vinyl sulfone acceptor olefin was developed, which allowed for the efficient synthesis of sulfone adducts that could be used as branch points for further diversification. Moreover, this reactivity was extended into an olefin-based Minisci reaction to functionalize heterocyclic scaffolds. Finally, mechanistic studies resulted in a more thorough understanding of the reaction, giving rise to the development of a more efficient second-generation set of olefin cross-coupling conditions.",

author = "Lo, {Julian C.} and Dongyoung Kim and Pan, {Chung Mao} and Edwards, {Jacob T.} and Yuki Yabe and Jinghan Gui and Tian Qin and Sara Guti{\'e}rrez and Jessica Giacoboni and Smith, {Myles W.} and Holland, {Patrick L.} and Baran, {Phil S.}",

note = "Funding Information: Financial support for this work was provided by NIH/NIGMS (GM-118176 to P.S.B.), NSF (CHE-1465017 to P.L.H.), NSF and the Ellen Browning Scripps Foundation (predoctoral fellowships to J.C.L.), NDSEG (predoctoral fellowship to J.T.E.), the Shanghai Institute of Organic Chemistry, Zhejiang Medicine Co., and Pharmaron (postdoctoral fellowship for J.G.), and JSPS (postdoctoral fellowship to Y.Y.). The authors thank D.-H. Huang and L. Pasternack (TSRI) for assistance with NMR spectroscopy, A. L. Rheingold and C. E. Moore (UCSD), and the CBIC X-ray facility and Dr. Brandon Mercado (Yale) for X-ray crystallographic analysis. The authors are grateful to N. Hawbaker and M. Mower (TSRI) for helpful discussions and A. Cernijenko (TSRI) for providing the heat map used in Figure 9. The authors would like to thank M. D. Eastgate, K. Chen, and B. D. Maxwell (BMS) for additional support. Publisher Copyright: {\textcopyright} 2017 American Chemical Society.",

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doi = "10.1021/jacs.6b13155",

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T1 - Fe-Catalyzed C-C Bond Construction from Olefins via Radicals

AU - Lo, Julian C.

AU - Kim, Dongyoung

AU - Pan, Chung Mao

AU - Edwards, Jacob T.

AU - Yabe, Yuki

AU - Gui, Jinghan

AU - Qin, Tian

AU - Gutiérrez, Sara

AU - Giacoboni, Jessica

AU - Smith, Myles W.

AU - Holland, Patrick L.

AU - Baran, Phil S.

N1 - Funding Information: Financial support for this work was provided by NIH/NIGMS (GM-118176 to P.S.B.), NSF (CHE-1465017 to P.L.H.), NSF and the Ellen Browning Scripps Foundation (predoctoral fellowships to J.C.L.), NDSEG (predoctoral fellowship to J.T.E.), the Shanghai Institute of Organic Chemistry, Zhejiang Medicine Co., and Pharmaron (postdoctoral fellowship for J.G.), and JSPS (postdoctoral fellowship to Y.Y.). The authors thank D.-H. Huang and L. Pasternack (TSRI) for assistance with NMR spectroscopy, A. L. Rheingold and C. E. Moore (UCSD), and the CBIC X-ray facility and Dr. Brandon Mercado (Yale) for X-ray crystallographic analysis. The authors are grateful to N. Hawbaker and M. Mower (TSRI) for helpful discussions and A. Cernijenko (TSRI) for providing the heat map used in Figure 9. The authors would like to thank M. D. Eastgate, K. Chen, and B. D. Maxwell (BMS) for additional support. Publisher Copyright: © 2017 American Chemical Society.

PY - 2017/2/15

Y1 - 2017/2/15

N2 - This Article details the development of the iron-catalyzed conversion of olefins to radicals and their subsequent use in the construction of C-C bonds. Optimization of a reductive diene cyclization led to the development of an intermolecular cross-coupling of electronically-differentiated donor and acceptor olefins. Although the substitution on the donor olefins was initially limited to alkyl and aryl groups, additional efforts culminated in the expansion of the scope of the substitution to various heteroatom-based functionalities, providing a unified olefin reactivity. A vinyl sulfone acceptor olefin was developed, which allowed for the efficient synthesis of sulfone adducts that could be used as branch points for further diversification. Moreover, this reactivity was extended into an olefin-based Minisci reaction to functionalize heterocyclic scaffolds. Finally, mechanistic studies resulted in a more thorough understanding of the reaction, giving rise to the development of a more efficient second-generation set of olefin cross-coupling conditions.

AB - This Article details the development of the iron-catalyzed conversion of olefins to radicals and their subsequent use in the construction of C-C bonds. Optimization of a reductive diene cyclization led to the development of an intermolecular cross-coupling of electronically-differentiated donor and acceptor olefins. Although the substitution on the donor olefins was initially limited to alkyl and aryl groups, additional efforts culminated in the expansion of the scope of the substitution to various heteroatom-based functionalities, providing a unified olefin reactivity. A vinyl sulfone acceptor olefin was developed, which allowed for the efficient synthesis of sulfone adducts that could be used as branch points for further diversification. Moreover, this reactivity was extended into an olefin-based Minisci reaction to functionalize heterocyclic scaffolds. Finally, mechanistic studies resulted in a more thorough understanding of the reaction, giving rise to the development of a more efficient second-generation set of olefin cross-coupling conditions.

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EP - 2503

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 6

ER -

Fe-Catalyzed C-C Bond Construction from Olefins via Radicals

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