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Beilstein J. Org. Chem. 2020, 16, 2623–2635, doi:10.3762/bjoc.16.213
Graphical Abstract
Scheme 1: Reactivity of tetrafluoropropanes HFO-1234yf (1) (top) and HFO-1234ze (4a) (bottom) in the presence...
Scheme 2: Reactivity of 10a in the presence of ACF as the catalyst in C6D12 (top) or C6D6 (bottom) as solvent...
Scheme 3: Proposed catalytic cycle of the transformation of 10a in C6D12 and C6D6 in the presence of ACF as t...
Scheme 4: Reactivity of 10a in the presence of ACF as the catalyst and HSiEt3 as a hydrogen source in C6D12 (...
Scheme 5: Proposed catalytic cycle for sylilium-mediated hydrodefluorinations and dehydrofluorinations from 1...
Scheme 6: Reactivity of 13 in the presence of ACF as the catalyst, with (top) or without (bottom) HSiEt3 as a...
Scheme 7: Independent reactions starting from 5, 6, or 14 in the presence of ACF as the catalyst.
Scheme 8: Proposed reaction pathways starting from 10a in the presence of ACF and silane.
Scheme 9: Reactivity of 10c in the presence of ACF as the catalyst and 0.5 equivalents of HSiEt3 as a hydroge...
Scheme 10: Proposed catalytic cycles for the transformation of 10c in C6D12 and in the presence of 0.5 equival...
Scheme 11: Reactivity of 10c in the presence of ACF as the catalyst and HSiEt3 as a hydrogen source in C6D12 (...
Scheme 12: Proposed reaction pathways starting from 10c in the presence of ACF and silane.
Scheme 13: Reactivity of 10b in the presence of ACF as the catalyst and HSiEt3 as a hydrogen source in C6D12 (...
Scheme 14: Proposed reaction pathway starting from 10b in the presence of ACF and silane.