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Beilstein J. Org. Chem. 2018, 14, 1813–1825, doi:10.3762/bjoc.14.154
Graphical Abstract
Figure 1: The structures of hypervalent iodine (III) reagents [8].
Scheme 1: Hypervalent iodine(III)-catalyzed functionalization of alkenes.
Scheme 2: Catalytic sulfonyloxylactonization of alkenoic acids [43].
Scheme 3: Catalytic diacetoxylation of alkenes [46].
Scheme 4: Intramolecular asymmetric dioxygenation of alkenes [48,50].
Scheme 5: Intermolecular asymmetric diacetoxylation of styrenes [52].
Scheme 6: Diacetoxylation of alkenes with ester groups containing catalysts 17 [55].
Scheme 7: Intramolecular diamination of alkenes [56].
Scheme 8: Intramolecular asymmetric diamination of alkenes [57].
Scheme 9: Intermolecular asymmetric diamination of alkenes [58].
Scheme 10: Iodoarene-catalyzed aminofluorination of alkenes [60,61].
Scheme 11: Iodoarene-catalyzed aminofluorination of alkenes [62].
Scheme 12: Catalytic difluorination of alkenes with Selectfluor [63].
Scheme 13: Iodoarene-catalyzed 1,2-difluorination of alkenes [64].
Scheme 14: Iodoarene-catalyzed asymmetric fluorination of styrenes [64,65].
Scheme 15: Gem-difluorination of styrenes [67].
Scheme 16: Asymmetric gem-difluorination of cinnamic acid derivatives [68].
Scheme 17: Oxyarylation of alkenes [71].
Scheme 18: Asymmetric oxidative rearrangements of alkenes [72].
Scheme 19: Bromolactonization of alkenes [75].
Scheme 20: Bromination of alkenes [77,78].
Scheme 21: Cooperative strategy for the carbonylation of alkenes [79].