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1 article(s) from Grelier, Gwendal

Hypervalent organoiodine compounds: from reagents to valuable building blocks in synthesis

Gwendal Grelier,
Benjamin Darses and
Philippe Dauban

Beilstein J. Org. Chem. 2018, 14, 1508–1528, doi:10.3762/bjoc.14.128

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Graphical Abstract

Scheme 1: Strategies to address the issue of sustainability with polyvalent organoiodine reagents.

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Scheme 2: Functionalization of ketones and alkenes with IBX.

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Scheme 3: Functionalization of pyrroles with DMP.

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Scheme 4: Catalytic benzoyloxy-trifluoromethylation reported by Szabó.

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Scheme 5: Catalytic benzoyloxy-trifluoromethylation reported by Mideoka.

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Scheme 6: Catalytic 1,4-benzoyloxy-trifluoromethylation of dienes.

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Scheme 7: Catalytic benzoyloxy-trifluoromethylation of allylamines.

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Scheme 8: Catalytic benzoyloxy-trifluoromethylation of enynes.

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Scheme 9: Catalytic benzoyloxy-trifluoromethylation of allenes.

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Scheme 10: Alkynylation of N-(aryl)imines with EBX for the formation of furans.

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Scheme 11: Catalytic benzoyloxy-alkynylation of diazo compounds.

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Scheme 12: Catalytic asymmetric benzoyloxy-alkynylation of diazo compounds.

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Scheme 13: Catalytic 1,2-benzoyloxy-azidation of alkenes.

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Scheme 14: Catalytic 1,2-benzoyloxy-azidation of enamides.

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Scheme 15: Catalytic 1,2-benzoyloxy-iodination of alkenes.

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Scheme 16: Seminal study with cyclic diaryl-λ³-iodane.

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Scheme 17: Synthesis of alkylidenefluorenes from cyclic diaryl-λ³-iodanes.

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Scheme 18: Synthesis of alkyne-substituted alkylidenefluorenes.

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Scheme 19: Synthesis of phenanthrenes from cyclic diaryl-λ³-iodanes.

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Scheme 20: Synthesis of dibenzocarbazoles from cyclic diaryl-λ³-iodanes.

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Scheme 21: Synthesis of triazolophenantridines from cyclic diaryl-λ³-iodanes.

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Scheme 22: Synthesis of functionalized benzoxazoles from cyclic diaryl-λ³-iodanes.

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Scheme 23: Sequential difunctionalization of cyclic diaryl-λ³-iodanes.

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Scheme 24: Double Suzuki–Miyaura coupling reaction of cyclic diaryl-λ³-iodanes.

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Scheme 25: Synthesis of a δ-carboline from cyclic diaryl-λ³-iodane.

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Scheme 26: Synthesis of N-(aryl)carbazoles from cyclic diaryl-λ³-iodanes.

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Scheme 27: Synthesis of carbazoles from cyclic diaryl-λ³-iodanes.

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Scheme 28: Synthesis of carbazoles and acridines from cyclic diaryl-λ³-iodanes.

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Scheme 29: Synthesis of dibenzothiophenes from cyclic diaryl-λ³-iodanes.

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Scheme 30: Synthesis of various sulfur heterocycles from cyclic diaryl-λ³-iodanes.

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Scheme 31: Synthesis of dibenzothioheterocycles from cyclic diaryl-λ³-iodanes.

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Scheme 32: Synthesis of dibenzosulfides and dibenzoselenides from cyclic diaryl-λ³-iodanes.

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Scheme 33: Synthesis of dibenzosulfones from cyclic diaryl-λ³-iodanes.

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Scheme 34: Seminal study with linear diaryl-λ³-iodanes.

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Scheme 35: N-Arylation of benzotriazole with symmetrical diaryl-λ³-iodanes.

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Scheme 36: Tandem catalytic C–H/N–H arylation of indoles with diaryl-λ³-iodanes.

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Scheme 37: Tandem N-arylation/C(sp²)–H arylation with diaryl-λ³-iodanes.

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Scheme 38: Catalytic intermolecular diarylation of anilines with diaryl-λ³-iodanes.

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Scheme 39: Catalytic synthesis of diarylsulfides with diaryl-λ³-iodanes.

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Scheme 40: α-Arylation of enolates using [bis(trifluoroacetoxy)iodo]arenes.

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Scheme 41: Mechanism of the α-arylation using [bis(trifluoroacetoxy)iodo]arene.

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Scheme 42: Catalytic nitrene additions mediated by [bis(acyloxy)iodo]arenes.

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Scheme 43: Tandem of C(sp³)–H amination/sila-Sonogashira–Hagihara coupling.

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Scheme 44: Tandem reaction using a λ³-iodane as an oxidant, a substrate and a coupling partner.

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Scheme 45: Synthesis of 1,2-diarylated acrylamidines with ArI(OAc)₂.

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Album

Review

Published 21 Jun 2018

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