2386-60-9

Articles about 2386-60-9

Facile synthesis of sulfonyl chlorides/bromides from sulfonyl hydrazides

A simple and rapid method for efficient synthesis of sulfonyl chlorides/bromides from sulfonyl hydrazide with NXS (X = Cl or Br) and late-stage conversion to several other functional groups was described. A variety of nucleophiles could be engaged in this transformation, thus permitting the synthesis of complex sulfonamides and sulfonates. In most cases, these reactions are highly selective, simple, and clean, affording products at excellent yields.

Synthesis of Sultams and Cyclic N-Sulfonyl Ketimines via Iron-Catalyzed Intramolecular Aliphatic C-H Amidation

Cyclic sulfonamides (sultams) play a unique role in drug discovery and synthetic chemistry. A direct synthesis of sultams by an intramolecular C(sp3)-H amidation reaction using an iron complex in situ derived from Fe(ClO4)2 and aminopyridine ligand is reported. This strategy features a readily available catalyst and tolerates a broad variety of substrates as demonstrated by 22 examples (up to 89% yield). A one-pot iron-catalyzed amidation/oxidation procedure for the synthesis of cyclic N-sulfonyl ketimines is also realized with up to 92% yield (eight examples). The synthetic utility of the method is validated by a gram-scale reaction and derivatization of the products to ring-fused sultams.

Unexpected distinction in reactivity of pentafluorobenzenesulfonyl halides toward organolithiums and organomagnesium halides

C6F5SO2Cl reacts with organolithiums and organomagnesium halides RM (R = Me, Bu, Ph; M = Li, MgX) to give mainly C6F5H and C6F5Cl. C6F5SO2Br and

Experimental study on deep desulfurization of MTBE by electrochemical oxidation and distillation

With the increasing awareness of environmental protection, deep desulfurization of methyl tert-butyl ether (MTBE), which is the most important octane booster in gasoline, is extremely urgent. Herein, a new desulfurization method, involving the combination of electrochemical oxidation and distillation, is proposed to reduce the sulfur content in MTBE. Under optimum operating conditions, the sulfur content of real MTBE decreases from 132.5 μg g-1 to 2.3 μg g-1 and the desulfurization efficiency reaches 98.25%. The oxidation products with high boiling points can be separated by distillation. FTIR analyses prove that electrochemical oxidation has no influence on the main properties of MTBE. Moreover, GC/MS is used to study the conversion of model organic sulfides (dimethyl disulfide, diethyl sulfide and butyl mercaptan) in the electrochemical oxidative desulfurization process. Finally, the possible reaction mechanism of the electrochemical oxidative desulfurization of MTBE is proposed.

Tert -Butyl Hypochlorite Mediated Oxidative Chlorination of S -Alkylisothiourea Salts: Synthesis of Sulfonyl Chlorides

Under neutral conditions, a variety of S-alkylisothiourea salts were smoothly converted into the corresponding sulfonyl chlorides through tert-butyl chlorite mediated oxidative chlorination in good to excellent yields after simple purification. In addition to the environmental and procedural advantages of this method, the neutral conditions potentially make it applicable to substrates that bear acid-sensitive functional groups. For example, the Cbz-protected 2-aminoethanesulfonyl chloride could be synthesized in moderate to good yields under the current neutral conditions, and the acid-sensitive Cbz-protecting group was not affected.

Clean and economic synthesis of alkanesulfonyl chlorides from S-alkyl isothiourea salts via bleach oxidative chlorosulfonation

A simple procedure for clean and economic synthesis of alkanesulfonyl chlorides via bleach-mediated oxidative chlorosulfonation of S-alkyl isothiourea salts is disclosed. This procedure is environment- and worker-friendly with the advantages of readily accessible materials and reagents, simple and safe operations, easy purification without chromatography, and affords high yields of up to 99%.

Simple synthesis of sulfonyl chlorides from thiol precursors and derivatives by NaClO2-mediated oxidative chlorosulfonation

A simple method to synthesize diverse sulfonyl chlorides through NaClO 2-mediated oxidative chlorosulfonation of S-alkyl isothiourea salts is presented. The approach features safe operation, environmental friendliness, convenient purification procedures, and delivers high yields of up to 96%. The procedure is also applicable to substrates such as thiols, disulfides, thioacetates, and xanthates. It is a versatile and convenient method for the synthesis of various sulfonyl chlorides from different thiol precursors and derivatives. Georg Thieme Verlag Stuttgart, New York.

One-pot synthesis of sulfonamides and sulfonyl azides from thiols using chloramine-T

A convenient synthesis of sulfonamides and sulfonyl azides from thiols is described. In situ preparation of sulfonyl chlorides from thiols was accomplished by oxidation with chloramine-T (=N-chlorotosylamide=N-chloro-4- methylbenzenesulfonamide), tetrabutylammonium chloride (Bu4NCl), and H2O. The sulfonyl chlorides were then further allowed to react with excess amine or NaN3 in the same pot.

Synthesis of sulfonyl chlorides and sulfonic acids in SDS micelles

H2O2/POCl3 is found to be a reactive reagent system that can be used in sodium dodecyl sulfate (SDS) micellar solution in aqueous media for the direct oxidative chlorination of thiol and di-sulfide derivatives to give the desired sulfonyl chlorides. The oxidation of thiols and disulfides to sulfonic acids with this system is also reported. In most cases, these reactions are highly selective, simple, and clean, affording products in excellent yields and high purity. Georg Thieme Verlag Stuttgart · New York.

Synthesis of sulfonyl chlorides and thiosulfonates from H2O 2-TiCl4

A new method is described for the oxidative chlorination of thiols to sulfonyl chlorides using titanium tetrachloride in combination with the oxidant hydrogen peroxide. Direct conversion of thiols into their corresponding thiosulfonates is also reported. Good to excellent yields, short reaction times, high efficiencies, cost-effectiveness, and, facile isolation of the desired products make the present methodology a practical alternative.

Convenient one-pot synthesis of sulfonamides from thiols and disulfides using 1,3-dichloro-5,5-dimethylhydantoin (DCH)

A convenient synthesis of sulfonamides from thiols and disulfides is described. In situ preparation of sulfonyl chlorides from thiols is accomplished by oxidation with 1,3-dichloro-5,5-dimethylhydantoin (DCH) under Nbenzyl-trimethylammonium chloride and water. The sulfonyl chlorides are then further allowed to react with excess amine in the same reaction vessel.

TAPC-promoted synthesis of sulfonyl chlorides from sulfonic acids

A novel and efficient method is described for the preparation of sulfonyl chlorides from sulfonic acids using TAPC as chlorinating agent. Mild reaction conditions, shorter reaction times, high efficiencies, cost-effectiveness, and facile isolation of the desired products make the present methodology a practical alternative and will provide a valuable synthetic tool for various pharmaceutical applications. Georg Thieme Verlag Stuttgart · New York.

New synthesis of alkane- and arylsulfonyl chlorides by oxidation of thiols and disulfi des with chlorine dioxide

Diverse reactions of sulfonyl chlorides and cyclic imines

Although alkanesulfonyl chlorides react with linear imines to give rise to β-sultam derivatives, in this study, they were reacted with various cyclic imines, including 1-pyrroline, oxazoline, 5,6-dihydro-4H-oxazines and thiazines, 4,5-dihydro-3H-benzo[c]azepine, and 3,4-dihydroisoquinoline, to produce diverse products instead of β-sultam derivatives. The results indicate that alkanesulfonyl chlorides react with cyclic imines to generate N-alkanesulfonyl cyclic iminium ions, which are attacked by nucleophiles, such as water and chloride anion, in the reaction systems, affording addition products. The iminium intermediates cannot undergo a ring closure to form β-sultam derivatives. Arenesulfonyl chlorides showed similar behavior when they reacted with cyclic imines. The scope and limitation of the reaction between sulfonyl chlorides and imines were investigated. Copyright Taylor & Francis Group, LLC.

Convenient one-pot synthesis of sulfonamides and sulfonyl azides from thiols using N -chlorosuccinimide

A convenient synthesis of sulfonamides and sulfonyl azides from thiols is described. In situ preparation of sulfonyl chlorides from thiols is accomplished by oxidation with N-chlorosuccinimide (NCS), tetrabutylammonium chloride, and water. The sulfonyl chlorides are then further allowed to react with excess amine or sodium azide in the same reaction vessel. Georg Thieme Verlag Stuttgart - New York.

DABCO-bis (sulfur dioxide), DABSO, as a convenient source of sulfur dioxide for organic synthesis: Utility in sulfonamide and sulfamide preparation

The charge-transfer complex generated from the combination of DABCO and sulfur dioxide, DABSO, is a bench-stable colorless solid suitable for use in organic synthesis as a replacement for gaseous sulfur dioxide. The complex can be combined with Grignard reagents to form sulfinates, which can then be converted in situ to a series of sulfonamides. Alternatively, reaction with anilines and iodine leads to the formation of a series of sulfamides. Cheletropic addition between DABSO and 2,3-dimethylbutadiene provides the corresponding sulfolene.

A new synthesis of alkane and polyfluoroalkanesulfonyl chlorides

This study describes a new and advantageous procedure for the synthesis of alkanesulfonyl chlorides (2) by the reaction of alkyl thiocyanates (1) with sulfuryl chloride in a mixture of acetic acid and water. The alkanesulfonyl chlorides were obtained in good yields.

Phenylenediamine urotensin-II receptor antagonists and CCR-9 antagonists

The present invention relates to urotensin II receptor antagonists, CCR-9 antagonists, pharmaceutical compositions containing them and their use.

Method for making alkanesulphonyl chlorides

In the process according to the invention for the manufacture of an alkanesulphonyl chloride RCH2—SO2Cl by oxidative chlorolysis of the corresponding mercaptan RCH2—SH, the mercaptan and water are introduced into the reaction mixture in the form of a dispersion of water in the mercaptan. This makes it possible to obtain both an alkanesulphonyl chloride of very good quality and a hydrochloric acid of commercial grade.

N-Sulfonyl homoserine lactones as antagonists of bacterial quorum sensing

A series of 11 N-sulfonyl homoserine lactones has been synthesised. Some of them were found to competitively inhibit the action of 3-oxohexanoyl-L- homoserine lactone, the natural inducer of bioluminescence in the bacterium Vibrio fischeri. Molecular modeling suggests a possible explanation based on the prevention of structural rearrangements necessary for the formation of the active dimer of LuxR.

A new, mild preparation of sulfonyl chlorides

A new method was developed for the preparation of sulfonyl chlorides from sulfonic acids under neutral conditions using 2,4,6-trichloro-1,3,5-triazine as chlorinating agent.

Bispiperidines as antithrombotic agents

Novel compounds which are inhibitors of the binding of fibrinogen to the Gp IIb/IIIa platelet receptors, and which can be used therepeutically as antithrombotic agents

Solid-state organic reactions proceeding by pulverization: Oxidation and halogenation with iodosobenzene and inorganic solid-supports

Pulverization-activation method was employed to accelerate solid-state organic reactions. Crushing and grinding of solid mixtures of hydrogen halide-treated silica gels, iodosobenzene and organic substrates in the absence of a solvent brought about smooth and rapid reactions to give halogenated and/or oxidized products in good yields. Various sulfides were smoothly converted to sulfonyl chlorides in one step in excellent yields. The surface of silica gel activated by pulverization serves as a reaction field on which reagent molecules can effectively encounter with each other.

Preparation of sulfonamides from sodium sulfonates: Ph3P·Br2 and Ph3P·Cl2 as a mild halogenating reagent for sulfonyl bromides and sulfonyl chlorides

Arene- and alkanesulfonamides were prepared by treatment of the corresponding sodium sulfonates with triphenylphosphine dibromide or dichloride followed by amines in the presence of triethylamine via sulfonyl halides. Reactions of sodium aminosulfonates gave cyclized products. Amidation of p-toluenesulfonic acid with triphenylphosphine dichloride was also examined to give N-benzyl-p-toluenesulfonamide. Methyl p- toluenesulfonate was obtained by esterification of sodium p-toluenesulfonate via p-toluenesulfonyl chloride.

Convenient One-Pot Synthesis of Sulfonyl Chlorides from Thiols Using Sulfuryl Chloride and Metal Nitrate

Various sulfonyl chlorides were obtained in excellent yields by the reaction of alkyl and aryl thiols with sulfuryl chloride in the presence of metal nitrate under mild condition in aprotic solvents such as acetonitrile and N,N-dimethylformamide.

Novel One-Step Synthesis of Sulfonyl Chlorides from Sulfides with Iodosobenzene and Hydrogen Chloride-Treated Silica Gel

Alkyl and aryl benzyl sulfides were conveniently converted into the corresponding alkyl and aryl sulfonyl chlorides in high yields with a few minutes' pulverization of solid mixtures with iodosobenzene and hydrogen chloride-treated silica gel.

LEUKOTRIENE-INHIBITING SUBSTITUTED (QUINOLIN-2-YL-METHOXY)PHENYL-N,N'-SULPHONYLUREAS AND USE THEREAS

Lipoxygenase-inhibiting and leukotriene-inhibiting substituted (quinolin-2-yl-methoxy)phenyl-N,N'-sulphonylureas of the formula and physiologically acceptable salts thereof

A new application of S,S-dialkyl dithiocarbonates. A convenient synthesis of alkanesulfonyl chlorides

REARRANGEMENT OF SULFONAMIDYL RADICALS WITH HYDROGEN MIGRATION

Synthesis of Alkanesulphonyl Chlorides from Alkylcobaloximes and Trichloromethanesulphonyl Chloride

Alkyl- and substituted alkylcobaloximes react photochemically with trichloromethanesulphonyl chloride to give high yields of alkanesulphonyl chlorides. erythro-2-Phenylethylcobaloxime gives an equimolar mixture of erythro- and threo-2-phenylethanesulphonyl chloride and diastereoisomerically pure 1-phenylpropan-2-ylcobaloxime gives a 1:1 mixture of diastereoisomers of 1-phenylpropane-2-sulphonyl chloride.The reaction is believed to proceed through a non-chain process initiated by photolysis of the carbon-cobalt bond.The product alkanesulphonyl chloride is then formed, either by a direct attack of the alkyl radical on the sulphur of trichloromethanesulphonyl chloride, or through capture of the alkyl radical by sulphur dioxide and halogen abstraction by the so-formed alkanesulphonyl radical from trichloromethanesulphonyl chloride.The latter process seems the more likely.No evidence could be obtained for an intermolecular homolytic attack of trichloromethyl radicals on the saturated alkyl ligand.

Process for preparing amides by reaction in presence of molecular sieve

There is provided a process for preparing amides which comprises reacting an amine, or an amide, and an acid halide, or anhydride, in suitable molecular proportions, in an inert organic diluent, in the presence of an effective amount of a molecular sieve, until the reaction is completed, separating the molecular sieve, and recovering the amide from the organic mother liquor.

N-sulfonyl-N-dihalophenylimidazolidinediones

3-(3' -Dihalophenyl)-1-sulfonylimidazolidine-2,4-5'-diones of the formula: STR1 wherein X is a halogen atom, R1 is a C1 -C12 alkyl group, a C2 -C4 alkenyl group or a halogenated C1 -C4 alkyl group having 1 to 3 halogen atoms, and R2 and R3 are individually a hydrogen atom or a methyl group, which show high microbicidal activities against various fungi and bacteria without any material toxicity to mammals and which plants and can be produced by reacting the corresponding 1-unsubstituted compound with a sulfonyl halide.

Anthraquinone disperse dyestuffs

1-Amino-4-hydroxy 2-p-alkoxy-benzenesulfonyloxy anthraquinone disperse dyestuffs have been prepared.

Method of producing quaternary pyridinium compounds

The method of preparing quaternary pyridinium compounds having the formula STR1 WHEREIN R represents alkyl, STR2 in which A is phenyl, naphthyl, carbostyrilyl, pyrazolinyl and substituted derivatives thereof where the substitutents are selected from the group consisting of alkyl having 1 to 4 carbon atoms, NO2, Cl, Br, phenyl, nitrophenyl and methylsulfonate; B is -O-alkylene-, STR3 AND C is selected from the group consisting of hydrogen, NHCOR1 and, when B is -O-alkylene, C can also be --OR2 -- where R1 is alkyl of 1 to 4 carbon atoms and R2 is alkylene of 1 to 4 carbon atoms; and wherein R4 represents lower alkyl having 1 to 6 carbon atoms, halophenyl, alkylphenyl or naphthyl, m represents an integer of 1 or 2 and m' is equal to m. The process for preparing the particularly designated compounds above comprises contacting pyridine and a hydroxy-containing compound having the formula: R'--(OH)n wherein R' represents alkyl, STR4 in which A' is phenyl, naphthyl, carbostyrilyl, pyrazolinyl and substituted derivatives thereof where the substituents are selected from the group consisting of alkyl having 1 to 4 carbon atoms, NO2, Cl, Br, phenyl, nitrophenyl and hydroxy; B, C, R1 and R2 are as defined above; and n is an integer of 1 or 2 and is equivalent to m defined above; reacting the pyridine and said hydroxy-containing compound in the presence of a sulfonyl halide having the formula R4 SO2 X wherein R4 is as defined above and X is Cl, Br or F; and conducting the reaction at an elevated temperature up to the reflux temperature of the reaction mixture. The quaternary pyridinium compounds can be used to prepare cationic surfactants, cationic pharmaceuticals, cationic dyestuffs, pesticides, fungicides and agricultural chemicals.