Controlling Neighbouring Group Participation from Thioacetals.

TLDR: In this paper, a nucleophilic attack on this 4-thia-7a-thioniaperhydroindene by azide ions kinetically favours opening to give a nine-membered ring α-azidosulfide, but 2-(3′-zidopropyl)-1,3-dithiane is the thermodynamic product from B3LYP/6-31G** calculations.

Abstract: A 1,3-dithiane displaces tosylate by a 5-exo-tet cyclisation to give a bicyclic sulfonium salt. Nucleophilic attack on this 4-thia-7a-thioniaperhydroindene by azide ions kinetically favours opening to give a nine-membered ring α-azidosulfide, but 2-(3′-azidopropyl)-1,3-dithiane is the thermodynamic product from B3LYP/6-31G** calculations. A similar sulfonium salt generated from 2-(3′-hydroxypropyl)-1,3-dithiane with thionyl chloride rearranges to 2-(3′-chloropropyl)-1,3-dithiane. Azide ion displacement of the primary alkyl chloride is then faster than [1.4] sulfanyl participation from the thioacetal. An α-chlorosulfide derived from diphenyldithioacetal does not rearrange but undergoes direct displacement to give an α-azidosulfide.