Palladium(II)‐Catalyzed CH Activation/CC Cross‐Coupling Reactions: Versatility and Practicality

Xiao, Chen; Engle, Keary M.; Wang, Dong‐Hui; Yu, Jin‐Quan

doi:10.1002/anie.200806273

Cited by 3,897 publications

(832 citation statements)

References 273 publications

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“…Furthermore, the primary amines with a cyclic alkyl group reacted smoothly in this catalytic system (2j and 2k). Although many successful examples for functionalizing unactivated secondary sp 3 C−H bonds have been reported with the installation of a mono-or bidentate directing group on the substrates [5][6][7][8][9][10][11][12][13][14][15] , direct functionalization of these bonds remains a great challenge with carbonyl compounds using a transient directing group 37 and free aliphatic amines 23,30,31 , presumably due to the inherent steric hindrance. In this catalytic system, substrate 1l with cyclic methylene C−H bonds provided the γ-arylated product 2l in 23% yield, while arylation of noncyclic secondary C−H bonds was not realized.…”

Section: Resultsmentioning

confidence: 99%

Site-selective C–H arylation of primary aliphatic amines enabled by a catalytic transient directing group

2016

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Abstract. Transition metal-catalyzed direct C−H bond functionalization of aliphatic amines is of great importance in organic and medicinal chemistry research. While several methods have been developed for the direct sp 3 C−H functionalization of secondary and tertiary aliphatic amines, site-selective functionalization of primary aliphatic amines remains a challenge. Here we report the direct highly siteselective arylation of primary alkylamines via a palladium-catalyzed C−H bond functionalization process on unactivated sp 3 carbons with catalytic glyoxylic acid as a novel, inexpensive, and transient directing group. With this approach, a wide array of γ-arylated primary alkylamines, important structural motifs in organic and medicinal chemistry, were prepared without any protection or deprotection steps.Aliphatic amines are ubiquitously present in pharmaceuticals with a wide range of biological activities 1,2 .

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Section: Resultsmentioning

confidence: 99%

Site-selective C–H arylation of primary aliphatic amines enabled by a catalytic transient directing group

2016

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“…Palladium has a lower cost and more abundant reserves than platinum (that is still the most widely used element in catalysis) [92,93]. Homogeneous and heterogeneous palladium-based catalysts have found a potential application in several industrial reactions including hydrogenation, dehydrogenation, hydrogenolysis, reforming, oxidation, coupling reactions, carbonylation/decarbonylation and hydrodesulphurization [94][95][96][97][98][99][100][101][102][103][104][105][106]. With respect to other PGM elements, palladium is characterized by a fundamental electronic configuration unique among transition metals (4d 10 , 5s 0 ) [107] that can be strongly influenced by the coordination environment [108].…”

Section: Introductionmentioning

confidence: 99%

Upgrading Lignocellulosic Biomasses: Hydrogenolysis of Platform Derived Molecules Promoted by Heterogeneous Pd-Fe Catalysts

et al. 2017

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Abstract:This review provides an overview of heterogeneous bimetallic Pd-Fe catalysts in the C-C and C-O cleavage of platform molecules such as C2-C6 polyols, furfural, phenol derivatives and aromatic ethers that are all easily obtainable from renewable cellulose, hemicellulose and lignin (the major components of lignocellulosic biomasses). The interaction between palladium and iron affords bimetallic Pd-Fe sites (ensemble or alloy) that were found to be very active in several sustainable reactions including hydrogenolysis, catalytic transfer hydrogenolysis (CTH) and aqueous phase reforming (APR) that will be highlighted. This contribution concentrates also on the different synthetic strategies (incipient wetness impregnation, deposition-precipitaion, co-precipitaion) adopted for the preparation of heterogeneous Pd-Fe systems as well as on the main characterization techniques used (XRD, TEM, H 2 -TPR, XPS and EXAFS) in order to elucidate the key factors that influence the unique catalytic performances observed.

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“…Compounds containing the quinone group have been found to exhibit a wide range of pharmacological properties [2,3] and have also been used as reoxidants for palladium-catalyzed reactions [4,5]. Among them, compounds functionalized at the quinone moiety with arylgroups constitute acommonstructural moiety.…”

Section: Discussionmentioning

confidence: 99%

Crystal structure of 2-phenyl-1,4-benzoquinone, C12H8O2

Bai¹,

Chen²,

Liu³

2011

Zeitschrift Für Kristallographie - New Crystal Structures

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Palladium(II)‐Catalyzed CH Activation/CC Cross‐Coupling Reactions: Versatility and Practicality

Cited by 3,897 publications

References 273 publications

Site-selective C–H arylation of primary aliphatic amines enabled by a catalytic transient directing group

Site-selective C–H arylation of primary aliphatic amines enabled by a catalytic transient directing group

Upgrading Lignocellulosic Biomasses: Hydrogenolysis of Platform Derived Molecules Promoted by Heterogeneous Pd-Fe Catalysts

Crystal structure of 2-phenyl-1,4-benzoquinone, C12H8O2

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