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Search for "haloamination" in Full Text gives 2 result(s) in Beilstein Journal of Organic Chemistry.
Hypervalent iodine-mediated intramolecular alkene halocyclisation
- Charu Bansal,
- Oliver Ruggles,
- Albert C. Rowett and
- Alastair J. J. Lennox
Beilstein J. Org. Chem. 2024, 20, 3113–3133, doi:10.3762/bjoc.20.258
- the product. Li reported a haloamination of unsaturated amines in 2014 (Scheme 5) [30], to form fluorinated piperidines 6 using PhI(OAc)2 as an oxidant and BF3·OEt2 as the source of fluoride. Fluorocyclisations gave lower yields compared to other halocyclisations reported by the authors
Graphical Abstract
Figure 1: Example bioactive compounds containing cyclic scaffolds potentially accessible by HVI chemistry.
Figure 2: A general mechanism for HVI-mediated endo- or exo-halocyclisation.
Scheme 1: Metal-free synthesis of β-fluorinated piperidines 6. Ts = tosyl.
Scheme 2: Intramolecular aminofluorination of unactivated alkenes with a palladium catalyst.
Scheme 3: Aminofluorination of alkenes in the synthesis of enantiomerically pure β-fluorinated piperidines. P...
Scheme 4: Synthesis of β-fluorinated piperidines.
Scheme 5: Intramolecular fluoroaminations of unsaturated amines published by Li.
Scheme 6: Intramolecular aminofluorination of unsaturated amines using 1-fluoro-3,3-dimethylbenziodoxole (12)...
Scheme 7: 3-fluoropyrrolidine synthesis. aDiastereomeric ratio (cis/trans) determined by 19F NMR analysis.
Scheme 8: Kitamura’s synthesis of 3-fluoropyrrolidines. Values in parentheses represent the cis:trans ratio.
Scheme 9: Jacobsen’s enantio- and diastereoselective protocol for the synthesis of syn-β-fluoroaziridines 15.
Scheme 10: Different HVI reagents lead to different diastereoselectivity in aminofluorination competing with c...
Scheme 11: Fluorocyclisation of unsaturated alcohols and carboxylic acids to make tetrahydrofurans, fluorometh...
Scheme 12: Oxyfluorination of unsaturated alcohols.
Scheme 13: Synthesis and mechanism of fluoro-benzoxazepines.
Scheme 14: Intramolecular fluorocyclisation of unsaturated carboxylic acids. Yield of isolated product within ...
Scheme 15: Synthesis of fluorinated tetrahydrofurans and butyrolactone.
Scheme 16: Synthesis of fluorinated oxazolines 32. aReaction time increased to 40 hours. Yields refer to isola...
Scheme 17: Electrochemical synthesis of fluorinated oxazolines.
Scheme 18: Electrochemical synthesis of chromanes.
Scheme 19: Synthesis of fluorinated oxazepanes.
Scheme 20: Enantioselective oxy-fluorination with a chiral aryliodide catayst.
Scheme 21: Catalytic synthesis of 5‑fluoro-2-aryloxazolines using BF3·Et2O as a source of fluoride and an acti...
Scheme 22: Intramolecular carbofluorination of alkenes.
Scheme 23: Intramolecular chlorocyclisation of unsaturated amines.
Scheme 24: Synthesis of chlorinated cyclic guanidines 44.
Scheme 25: Synthesis of chlorinated pyrido[2,3-b]indoles 46.
Scheme 26: Chlorolactonization and chloroetherification reactions.
Scheme 27: Proposed mechanism for the synthesis of chloromethyl oxazolines 49.
Scheme 28: Oxychlorination to form oxazine and oxazoline heterocycles promoted by BCl3.
Scheme 29: Aminobromocyclisation of homoallylic sulfonamides 53. The cis:trans ratios based on the 1H NMR of t...
Scheme 30: Synthesis of cyclic imines 45.
Scheme 31: Synthesis of brominated pyrrolo[2,3-b]indoles 59.
Scheme 32: Bromoamidation of alkenes.
Scheme 33: Synthesis of brominated cyclic guanidines 61 and 61’.
Scheme 34: Intramolecular bromocyclisation of N-oxyureas.
Scheme 35: The formation of 3-bromoindoles.
Scheme 36: Bromolactonisation of unsaturated acids 68.
Scheme 37: Synthesis of 5-bromomethyl-2-oxazolines.
Scheme 38: Synthesis of brominated chiral morpholines.
Scheme 39: Bromoenolcyclisation of unsaturated dicarbonyl groups.
Scheme 40: Brominated oxazines and oxazolines with BBr3.
Scheme 41: Synthesis of 5-bromomethtyl-2-phenylthiazoline.
Scheme 42: Intramolecular iodoamination of unsaturated amines.
Scheme 43: Formation of 3-iodoindoles.
Scheme 44: Iodoetherification of 2,2-diphenyl-4-penten-1-carboxylic acid (47’) and 2,2-diphenyl-4-penten-1-ol (...
Scheme 45: Synthesis of 5-iodomethyl-2-oxazolines.
Scheme 46: Synthesis of chiral iodinated morpholines. aFrom the ʟ-form of the amino acid starting material. Th...
Scheme 47: Iodoenolcyclisation of unsaturated dicarbonyl compounds 74.
Scheme 48: Synthesis of 5-iodomethtyl-2-phenylthiazoline (87).
Intermolecular addition reactions of N-alkyl-N-chlorosulfonamides to unsaturated compounds
- Gerold Heuger and
- Richard Göttlich
Beilstein J. Org. Chem. 2015, 11, 1226–1234, doi:10.3762/bjoc.11.136
- catalysis and amidyl radicals, a concerted mechanism has been ruled out and a polar mechanism via chloronium ions would lead to the opposite regiochemistry. Keywords: addition reactions; catalysis; N-chlorosulfonamides; haloamination; radical reaction; Introduction In earlier publications we described the
Graphical Abstract
Scheme 1: Preparation of the chloroamides.
Scheme 2: First experiments for the intermolecular radical addition.
Scheme 3: Reaction of sterically hindered N-chlorosulfonamides.
Scheme 4: Proposed mechanism of the chlorination.
Scheme 5: Ring opening in the case of cationic or radical intermediates.
Scheme 6: Addition to unsaturated alcohols prone to halocyclization.
