Csp³-Csp³ Bond-Forming Reductive Elimination from Well-Defined Copper(III) Complexes

Matthew Paeth¹, Sam B Tyndall¹, Liang-Yu Chen², Jia-Cheng Hong², William P Carson¹, Xingwu Liu^{3

4}, Xiaodong Sun^{3

4}, Jinjia Liu^{3

4}, Kundi Yang¹, Elizabeth M Hale¹, David L Tierney¹, Bin Liu⁵, Zhi Cao^{3

4}, Mu-Jeng Cheng², William A Goddard 3rd⁶, Wei Liu¹

Affiliations

¹ Department of Chemistry and Biochemistry , Miami University , Oxford , Ohio 45056 , United States.
² Department of Chemistry , National Cheng Kung University , Tainan 701 , Taiwan.
³ State Key Laboratory of Coal Conversion, Institute of Coal Chemistry , Chinese Academy of Sciences , Taiyuan , Shanxi 030001 , P. R. China.
⁴ National Energy Center for Coal to Liquids , Synfuels China Technology Co., Ltd , Beijing 101400 , P. R. China.
⁵ A Key Laboratory of Synthetic and Natural Functional Molecule Chemistry of Ministry of Education, Shaanxi Key Laboratory of Physico-Inorganic Chemistry, College of Chemistry and Materials Science , Northwest University , Xi'an 710127 , P. R. China.
⁶ Materials and Process Simulation Center (MC 139-74) , California Institute of Technology , Pasadena , California 91125 , United States.

PMID: 30678456
DOI: 10.1021/jacs.8b12632

Csp³-Csp³ Bond-Forming Reductive Elimination from Well-Defined Copper(III) Complexes

Matthew Paeth et al. J Am Chem Soc. 2019.

. 2019 Feb 20;141(7):3153-3159.

doi: 10.1021/jacs.8b12632. Epub 2019 Feb 6.

Authors

Affiliations

¹ Department of Chemistry and Biochemistry , Miami University , Oxford , Ohio 45056 , United States.
² Department of Chemistry , National Cheng Kung University , Tainan 701 , Taiwan.
³ State Key Laboratory of Coal Conversion, Institute of Coal Chemistry , Chinese Academy of Sciences , Taiyuan , Shanxi 030001 , P. R. China.
⁴ National Energy Center for Coal to Liquids , Synfuels China Technology Co., Ltd , Beijing 101400 , P. R. China.
⁵ A Key Laboratory of Synthetic and Natural Functional Molecule Chemistry of Ministry of Education, Shaanxi Key Laboratory of Physico-Inorganic Chemistry, College of Chemistry and Materials Science , Northwest University , Xi'an 710127 , P. R. China.
⁶ Materials and Process Simulation Center (MC 139-74) , California Institute of Technology , Pasadena , California 91125 , United States.

PMID: 30678456
DOI: 10.1021/jacs.8b12632

Abstract

Carbon-carbon bond-forming reductive elimination from elusive organocopper(III) complexes has been considered the key step in many copper-catalyzed and organocuprate reactions. However, organocopper(III) complexes with well-defined structures that can undergo reductive elimination are extremely rare, especially for the formation of Csp³-Csp³ bonds. We report herein a general method for the synthesis of a series of [alkyl-Cu^III-(CF₃)₃]^- complexes, the structures of which have been unequivocally characterized by NMR spectroscopy, mass spectrometry, and X-ray crystal diffraction. At elevated temperature, these complexes undergo reductive elimination following first-order kinetics, forming alkyl-CF₃ products with good yields (up to 91%). Both kinetic studies and DFT calculations indicate that the reductive elimination to form Csp³-CF₃ bonds proceeds through a concerted transition state, with a Δ H^⧧ = 20 kcal/mol barrier.

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Csp³-Csp³ Bond-Forming Reductive Elimination from Well-Defined Copper(III) Complexes

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Csp³-Csp³ Bond-Forming Reductive Elimination from Well-Defined Copper(III) Complexes

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Abstract

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