36293-56-8

Upstream product

• 930-69-8 sodium thiophenolate 
• 2550-36-9 Cyclohexylmethyl bromide 
• 3289-28-9 ethyl cyclohexanecarboxylate 
• 112698-79-0 thexylphenylthioborane 
• 33521-88-9 ((phenylthio)methylene)cyclohexane 
• 882-33-7 diphenyldisulfane 
• 100-49-2 cyclohexylmethyl alcohol 
• 1212-08-4 S-Phenyl benzenethiosulfonate 
• 1193-82-4 racemic methyl phenyl sulfoxide 
• 931-51-1 cyclohexylmagnesiumchloride 
• 100-68-5 methyl-phenyl-thioether 
• 34884-33-8 (phenylthio)-methylenetriphenylphosphorane 
• 108-94-1 cyclohexanone 
• 108-98-5 thiophenol 

Downstream Products

• 33521-88-9 ((phenylthio)methylene)cyclohexane 
• 59664-74-3 (Chloro-cyclohexylidene-methylsulfanyl)-benzene 
• 7331-99-9 ((cyclohexylmethyl)sulfonyl)benzene 
• 502763-30-6 (2E,6E)-9-cyclohexyl-3,7-dimethyl-2,6-nonadien-1-ol 
• 502763-39-5 (2E,6E)-9-cyclohexyl-3,7-dimethyl-1-tetrahydro-2-pyranyloxy-2,6-nonadien-1-ol 
• 100-49-2 cyclohexylmethyl alcohol 
• 63126-49-8 (+/-)-1-cyclohexyl-1-pentanol 
• 175850-43-8 (R)-(+)-cyclohexylmethyl phenyl sulfoxide 
• 175850-44-9 (S)-(-)-cyclohexylmethyl phenyl sulfoxide 
• 36293-57-9 cyclohexylmethyl phenyl sulfoxide 

Relevant academic research and scientific papers

Electroreductive Nickel-Catalyzed Thiolation: Efficient Cross-Electrophile Coupling for C?S Formation

Sulfur-containing molecules are of utmost topical importance towards the effective development of pharmaceuticals and functional materials. Herein, we present an efficient and mild electrochemical thiolation by cross-electrophile coupling of alkyl bromide

Intermolecular Pummerer Coupling with Carbon Nucleophiles in Non-Electrophilic Media

A new Pummerer-type C?C coupling protocol is introduced based on turbo-organomagnesium amides, which unlike traditional Pummerer reactions, does not require strong electrophilic activators, engages a broad range of C(sp3)-, C(sp2)-, and C(sp)-nucleophiles, and seamlessly integrates with C?H and C?X magnesiation. Given the central character of sulfur compounds in organic chemistry, this protocol allows access to unrelated carbonyls, olefins, organometallics, halides, and boronic esters through a single strategy.

Synthesis of alcohols from m-fluorophenylsulfones and dialkylboranes: Application to the C14-C35 building block of E7389

The reaction of m-fluorophenylsulfone anions with dialkylboranes, followed by alkaline hydroperoxide oxidation, yields alcohols in high yields. Optimization of the process, scope and limitation, and application to the synthesis of one of the C14-C35 building blocks of E7389, a right half analogue of halichondrin B, are reported.

Synthesis of (+)-trixagol and its enantiomer, the terpenoid side chain of (-)-agelasine E

The naturally occurring γ-cyclogeranylgeraniol called (+)-trixagol has been synthesised for the first time. Trixagol was readily available in five steps from (S)-2,2-dimethyl-6-methylene-1-cyclohexanemethanol. The enantiomer of trixagol, which equates to

Hole transfer promoted hydrogenation: One-electron oxidation as a strategy for selective reduction of π-bonds

One-electron oxidation is developed as a strategy for selective and efficient reduction of relatively ionizable functionalities, including conjugated dienes, styrenes, vinyl sulfides, aromatics, and even strained σ-bonds. Reduction is highly sensitive to substrate ionizability and permits selective reduction of the more ionizable function in a difunctional context. Ionization of the substrates to cation radicals is effected via the mild hole transfer agent tris(4-bromophenyl)aminium hexachloroantimonate, and subsequent reduction of the cation radicals is accomplished by tributyltin hydride. The new reduction conditions provide a novel route for generating free radicals which may prove useful in the field of radical cyclizations. This is especially attractive in the case of phenyl vinyl sulfides since the phenylthio group, which remains intact subsequent to cyclization, provides versatile functionality for further synthetic operations.

DIRECT CONVERSION OF CARBOXYLIC ACIDS AND CARBOXYLIC ESTERS INTO S,S'-DIPHENYL ACETALS AND PHENYL SULFIDES WITH THEXYLPHENYLTHIOBORANE

Reaction of carboxylic acids with thexylphenylthioborane in methylene chloride at room temperature gives S,S-diphenyl acetals in high yields and carboxylic esters are converted into phenyl sulfides in the presence of zinc iodide under similar conditions.

α,β-Epoxy Sulfoxides as Useful Intermediates in Organic Synthesis. I. A Novel Synthesis of Dialkyl Ketones and a Synthesis of Aldehydes from Ketones by One Carbon Elongation

Treatment of α,β-epoxy sulfoxides, prepared from 1-chloroalkyl phenyl sulfoxides with ketones or aldehydes, with sodium benzeneselenolate gives dialkyl ketones or aldehydes in good yields under mild conditions.The mechanism of this reaction and an application of this process to a formal total synthesis of dihydrojasmone are described.