Abstract

Ab initio molecular orbital calculations have been carried out on benzo[b]thiophene (BT), 2-methylbenzo[b]thiophene (2-MeBT), 3-methylbenzo[b]thiophene (3-MeBT), and a number of organometallic complexes containing these thiophenic moieties in an attempt to understand the usual preference for insertion of metal fragments into the sulfur−carbon(vinyl) bond of BT and the recent observations of insertion into the sulfur−carbon(aryl) bond. The results indicate that insertion selectivity is governed by several factors, including the orbital structure of BT, steric interactions between the metal and the heterocycle, and the metal−carbon bond strengths of the inserted products. In most cases, all three factors support the experimentally observed preference for insertion into the S−C(vinyl) bond. Subtle structural changes, however, can lead to S−C(aryl) metal-inserted products. For instance, steric factors inhibiting insertion of metal fragments into the sulfur−carbon(aryl) bond of BT can be overcome by “tied back...

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