Abstract
Aryldiazonium, ArN2+, ions decompose spontaneously through the formation of highly reactive aryl cations that undergo preferential solvation by water, showing a low selectivity towards the nucleophiles present in their solvation shell. In this work, we investigate the effects of electrolytes (NaCl, LiCl, and LiClO4) on the dediazoniation of 2-, 3-, and 4-methylbenzenediazonium ions in acidic MeOH/H2O mixtures. In the absence of electrolytes, the rates of dediazoniation, kobs, increase modestly upon increasing the MeOH content of the reaction mixture. At any solvent composition, the rate of ArN2+ loss is the same as that for product formation. The main dediazoniation products are cresols (ArOH) and methyl phenyl ethers (ArOMe). Only small amounts (less than 5%) of the reduction product toluene (ArH), which are detected at high percentages of MeOH. Quantitative yields of are obtained at any solvent composition. The addition of LiCl or NaCl ([MCl] = 0–1.5 M) to the reaction mixtures has a negligible effect on kobs but leads to the formation, in low yields (<10%), of the ArCl derivative. The addition of LiClO4 (0–1.5 M) to 20% MeOH/H2O mixtures has a negligible effect on both kobs and on the product distribution. However, at 99.5% MeOH, the addition of the same amounts of LiClO4 leads to a modest decrease in kobs but to a significant decrease in the yields of ArOMe. Results are interpreted in terms of the preferential solvation of perchlorate ions by the aryl cations, removing MeOH molecules from the solvation shell.
Highlights
Aryldiazonium, ArN2+, salts have been profusely employed in organic chemistry for years [1,2,3]
The low values are interpreted on the grounds of similarities in the structure and the charge allocation between the parent aryldiazonium ion and the corresponding aryl cation [14,50,51]
The selectivity values for a number of aryldiazonium ions have been obtained, assuming that the nucleophilic attack on the carbocation is under kinetic control
Summary
Aryldiazonium, ArN2+ , salts have been profusely employed in organic chemistry for years [1,2,3]. S mechanism; that is, the rate-determining formation of a highly complement previousN kinetic studies that were focused on the effects of electrolytes on reactive arylcarbocations, cation that traps the nucleophiles in its solvation shell [14,22,23,24,25,26,27,28,29]. Taken, some of nucleophilicity scales has intrigued chemists for years, and Grunwald and aryl diazonium perchlorates have been reported to be explosive when prepared inWinstein the solid proposed a relationship thecan solvolyses of SN1 reactions oninthe the solventstate [38,39]. ClO4− in solution is governed by kinetics and not thermodynamics, and, they do not oxidize [40,41]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
