Abstract
A hydromethylthiolation method for various alkynes has been developed using dimethyl disulfide as a source of the nucleophilic methylthiolate anion in a DMSO/EtOH or DMSO/H2O solvent system, with KOH as the base. For terminal aromatic alkynes, the reactions predominantly yield (Z)-anti-Markovnikov hydromethylthiolation products. The ratio of anti-Markovnikov to Markovnikov products typically exceeds 10:1, while the ratio of (Z)- to (E)-anti-Markovnikov products usually surpasses 7:1. In contrast, terminal aliphatic alkynes primarily produce Markovnikov hydromethylthiolation products. Reactions of internal aromatic alkynes also successfully produce the corresponding hydromethylthiolation products, whereas internal aliphatic alkynes do not exhibit reactivity in this system. The proposed mechanism suggests that in a basic DMSO solvent system, each equivalent of dimethyl disulfide is converted into two equivalents of methylthiolate anion. This anion then undergoes nucleophilic addition to the alkyne substrates, yielding hydromethylthiolation products. The regioselectivity and stereoselectivity of the hydromethylthiolation are influenced by the stability of the vinyl carbanion intermediate. Additionally, this method is also applicable to the hydrothiolation of alkynes using other disulfides.
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