ABSTRACT
Carboxylic acids and thiols are basic chemical compounds with diverse utility and widespread reactivity. However, the direct conversion of unprotected acids to thiols is hampered due to a fundamental problem - free thiols are incompatible with the alkyl radicals formed on decarboxylation of carboxylic acids. Herein, we describe a concept for the direct photocatalytic thiolation of unprotected acids allowing unprotected thiols and their derivatives to be obtained. The method is based on the application of a thionocarbonate reagent featuring the N-O bond. The reagent serves both for the rapid trapping of alkyl radicals and for the facile regeneration of the acridine-type photocatalyst.
ABSTRACT
Nickel K- and L2,3-edge X-ray absorption spectra (XAS) are discussed for 16 complexes and complex ions with nickel centers spanning a range of formal oxidation states from II to IV. K-edge XAS alone is shown to be an ambiguous metric of physical oxidation state for these Ni complexes. Meanwhile, L2,3-edge XAS reveals that the physical d-counts of the formally NiIV compounds measured lie well above the d6 count implied by the oxidation state formalism. The generality of this phenomenon is explored computationally by scrutinizing 8 additional complexes. The extreme case of NiF62- is considered using high-level molecular orbital approaches as well as advanced valence bond methods. The emergent electronic structure picture reveals that even highly electronegative F-donors are incapable of supporting a physical d6 NiIV center. The reactivity of NiIV complexes is then discussed, highlighting the dominant role of the ligands in this chemistry over that of the metal centers.
ABSTRACT
The removal of the tetrafluoropyridinyl group tethered to a sulfur atom using a complex of N-heterocyclic carbene (NHC) with borane is described. The reaction is performed under blue light irradiation with a disulfide as radical initiator. The selective cleavage of S-Ar in preference to the weaker S-Alk bond is achieved as a result of aromatic radical substitution of the thiyl group by a NHC-stabilized boron-centered radical. Alkyl thiols, which are the primary products of the dearylation, are in situ oxidized or alkylated, affording disulfides or sulfides, respectively.
ABSTRACT
Thiolation of carboxylic acids using a disulfide reagent having tetrafluoropyridinyl groups is described. The light-mediated process is performed using an acridine-type photocatalyst. Primary, secondary, tertiary, and heteroatom-substituted carboxylic acids can be thiolated, and the method can be applied to the late-stage modification of a range of naturally occurring compounds and drugs. The fluorinated pyridine fragment is believed to enable the C-S bond formation. The resulting sulfides were used as redox-active radical precursors.
Subject(s)
Carboxylic Acids , Disulfides , Carboxylic Acids/chemistry , Indicators and Reagents , Oxidation-ReductionABSTRACT
A visible-light-promoted fluoroalkylation-thiolation of alkenes is described. A 4-tetrafluoropyridinylthio fragment serves as a photoredox-active group in the initiation step and undergoes a radical group transfer, which is important for the reaction efficiency. In the primary products, the pyridinylthio substituent may be further functionalized via radical processes or an aromatic substitution reaction.
Subject(s)
Alkenes/chemistry , Light , Sulfides/chemistry , Alkylation , Halogenation , Imines/chemical synthesis , Imines/chemistry , Magnetic Resonance Spectroscopy , Oxidation-Reduction , StereoisomerismABSTRACT
A 4-tetrafluoropyridinylthio group was suggested as a new photoredox-active moiety. The group can be directly installed on difluorostyrenes in a single step by the thiolene click reaction. It proceeds upon visible light catalysis with 9-phenylacridine providing various difluorinated sulfides as radical precursors. Single electron reduction of the C-S bond with the formation of fluoroalkyl radicals is enabled by the electron-poor azine ring. The intermediate difluorinated sulfides were involved in a series of photoredox reactions with silyl enol ethers, alkenes, nitrones and an alkenyl trifluoroborate.
ABSTRACT
A method for the difluorohomologation of ketones accompanied by halogenation of a C-H bond is described. The reaction involves silylation, difluorocarbene addition using Me3SiCF2Br activated by a bromide ion, and halogenation of intermediate cyclopropanes with N-bromo- or N-iodosuccinimide. The whole process is performed without isolation of intermediates. The resulting α,α-difluoro-ß-halo-substituted ketones can be readily converted into fluorine containing pyrazole derivatives and oxetanes.
Subject(s)
Ethers, Cyclic/chemical synthesis , Hydrocarbons, Fluorinated/chemistry , Ketones/chemistry , Pyrazoles/chemical synthesis , Bromosuccinimide/chemistry , Catalysis , Ethers, Cyclic/chemistry , Halogenation , Hydrogen Bonding , Molecular Structure , Pyrazoles/chemistry , Succinimides/chemistryABSTRACT
A method for the homologation of ketones with the CF2 fragment is described. The reaction involves silylation, room-temperature difluorocyclopropanation of silyl enol ethers, and selective ring opening of cyclopropanes under acidic conditions. The whole three-step sequence is conveniently performed in a one-pot mode.
Subject(s)
Hydrocarbons, Fluorinated/chemistry , Hydrocarbons, Fluorinated/chemical synthesis , Ketones/chemistry , Silanes/chemistry , Combinatorial Chemistry Techniques , Cyclopropanes/chemistry , Molecular StructureABSTRACT
A method for bromodifluoromethylation of iminium ions using Me3SiCF2Br is described. The reaction involves room temperature activation of the silicon reagent by HMPA to generate difluorocarbene, which upon interacting with excess of bromide ion provides bromodifluoromethyl carbanionic species. The iminium electrophiles are generated in situ from aldehydes, secondary amines, proton sponge, and silyl triflate. The reaction can be extended for introduction of chlorodifluoromethyl and iododifluoromethyl groups.
ABSTRACT
A method for bromo- and iododifluoromethylation of aldehydes using bromo- and iodo-substituted difluoromethyl silicon reagents (Me(3)SiCF(2)X) is described. The reaction is performed in the presence of a combination of tetrabutylammonium and lithium salts Bu(4)NX/LiX (X = Br or I) in propionitrile. It is believed that, in this process, a short-lived halodifluoromethyl carbanion serves as nucleophile, which is reversibly generated from difluorocarbene and a halide anion.
Subject(s)
Aldehydes/chemistry , Hydrocarbons, Brominated/chemical synthesis , Hydrocarbons, Fluorinated/chemical synthesis , Hydrocarbons, Iodinated/chemical synthesis , Anions , Hydrocarbons, Brominated/chemistry , Hydrocarbons, Fluorinated/chemistry , Hydrocarbons, Iodinated/chemistry , Lithium/chemistry , Molecular Structure , Quaternary Ammonium Compounds/chemistry , Silanes/chemistryABSTRACT
A new difluorinated reagent, [difluoro(trimethylsilyl)methyl]zinc bromide, bearing C-Zn and C-Si bonds is described. The reagent is conveniently prepared by cobalt-catalyzed halogen/zinc exchange. It can be coupled with two different C-electrophiles in a stepwise manner (with allylic halides for C-Zn bond and aldehydes for C-Si bond) affording products containing a difluoromethylene fragment.
ABSTRACT
A new silicon reagent, difluoro(trimethylsilyl)acetonitrile, was prepared by insertion of difluorocarbene into silyl cyanide. The obtained silane served as a good cyanodifluoromethylating reagent toward aldehydes, N-tosylimines, N-alkylimines, and enamines under basic or acidic conditions.
Subject(s)
Acetonitriles/chemistry , Acetonitriles/chemical synthesis , Aldehydes/chemical synthesis , Imines/chemical synthesis , Tosyl Compounds/chemical synthesis , Trimethylsilyl Compounds/chemistry , Trimethylsilyl Compounds/chemical synthesis , Aldehydes/chemistry , Alkylation , Cyanides/chemistry , Hydrocarbons, Fluorinated/chemistry , Imines/chemistry , Molecular Structure , Stereoisomerism , Tosyl Compounds/chemistryABSTRACT
Nucleophilic fluoroalkylation reactions of imines and enamines with α-phenylthio, α-phenylsulfonyl, and α-diethylphosphoryl substituted fluorinated silanes have been investigated. The reactions are promoted by hydrofluoric acid generated in situ from potassium hydrodifluoride and trifluoroacetic acid. Sulfur reagents worked well with both imines and enamines, whereas phosphorus reagent efficiently coupled only with enamines.