22033-07-4

Upstream product

• 19099-54-8 2-isopropyliodobenzene 
• 82125-41-5 2-Isopropyl-N,N-dimethyl-benzenesulfonamide 
• 22033-08-5 m-cumenesulfonic acid 
• 16066-35-6 p-cumenesulfonic acid 
• 98-82-8 Isopropylbenzene 

Downstream Products

• 88-69-7 2-(1-methylethyl)phenol 

Relevant academic research and scientific papers

Sustainable access to sulfonic acids from halides and thiourea dioxide with air

A sustainable and mild one-step strategy is explored for the synthesis of aryl and alkyl sulfonic acids using a facile combination of halides and sulfur dioxide surrogates under air. The cheap industrial material thiourea dioxide was employed as an eco-friendly and easy-handling sulfur dioxide surrogate, while air was used as a green oxidant. Both aryl and alkyl sulfonic acids were obtained under transition metal-catalyzed or transition metal-free conditions. Mechanistic studies demonstrated that sulfinate was involved as an intermediate in this transformation. Notably, this protocol has been applied to the late-stage sulfonation of the drugs naproxen, isoxepac and ibuprofen.

Aryl and alkyl sulfonic acid compounds as well as construction method adopting inorganic sulfur salt and application

The invention discloses aryl and alkyl sulfonic acid compounds as shown in a formula (1) and a synthesis method thereof. The method comprises the following step: aromatic iodine and an inorganic sulfur source or alkyl bromide and an inorganic sulfur source as reaction raw materials react in a solvent under the action of alkali, a catalyst or an additive to obtain a series of aryl and alkyl sulfonic acid compounds. According to the method, the aryl and alkyl sulfonic acid compounds are constructed in one step by taking an inorganic sulfur reagent as a sulfur source, so that the defect of the mode in which the aryl and alkyl sulfonic acid compounds are synthesized by taking concentrated sulfuric acid, chlorosulfonic acid or sulfur dioxide gas and the like as sulfonating reagents in the priorart is avoided. The aryl and alkyl sulfonic acid compounds developed by the invention can be used for synthesizing aryl and alkyl sulfonic acid drug analogues.

Acid-catalyzed hydrolysis of benzenesulfonamides. Rate enhancements by ortho-alkyl substituents

Pseudo-first-order rate constants have been measured for the acid-catalyzed hydrolysis of a series of N,N-dimethyl- and N-methyl-N-phenylbenzenesulfonamides in 70 percent (v/v) CF3CO2H/H2O at 99 deg C.Analysis of the effect of the alkyl substituents in the benzene ring shows a remarkable rate enhancement by ortho-alkyl groups, in the contrast with a rate retardation of similar substituents in the corresponding benzamides.The rate enhancement in the sulfonamides is attributed to relief of initalstate strain in the transition state for hydrolysis.When the sulfonamide moiety is contained in a five-membered ring fused to a phenyl ring, the rate of hydrolysis is markedly reduced by an ortho-methyl substituent.

HYDROLYSIS OF AROMATIC SULFONIC ACIDS UNDER THERMODYNAMIC CONTROL OF THE REACTION

Linear mathematical models which describe the hydrolysis of alkyl- and halobenzenesulfonyl acids under the conditions for their isomerization in sulfuric acid have been obtained by the method of mathematical experiment planning.The value of the effective rate constants of hydrolysis calculated according to the models for comparative conditions (150 deg C, 3 moles of 85percent sulfuric acid) were used to obtain the correlation between log kh and the ? constants of the substituents.The correlation corresponds the electrophilic nature of the hydrolysis process (ρ = -4.69).The strong influence of the electronic effects of the substituents on the rate of hydrolysis is an indication of the development of a considerable positive charge on the reaction center in the transition state.

SULFONATION OF CUMENE WITH SULFURIC AND HALOGENOSULFONIC ACIDS

The sulfonation of cumene by sulfuric and chloro- and fluorosulfonic acids in the range of 0-100 deg C under heterogenous and heterogenous-homogenous conditions gives mixtures of isomeric sulfonyl halides and/or sulfonic acids, in which the para isomer predominates (90-95percent of the total isomers at temperatures above 75 deg C and/or with the addition of the sulfonating agent to the cumene).If the reagents are mixed in the opposite order and at low temperatures (0-25 deg C), the proportion of the ortho isomer in the mixture of sulfo products increases to 20-22percent.The yield of the sulfonyl halides show an extremal relationship with temperature.The composition of the sulfonic acids and their halides formed under the conditions of a single experiment with the halogenosulfonic acids differ as a result, probably, of the nonequilibrium nature of the process and of the presence of several paths to the formation of the acid halides.