Publications [#233973] of Michael J. Therien
Papers Published
- Therien, MJ; Trogler, WC, "Theoretical Study of Bimolecular Nucleophilic Substitution at Four-, Five-, and Six-Coordinate Metal Carbonyl Radicals", Journal of the American Chemical SocietyJanuary,, 1988, 110(15), 4942-4953, American Chemical Society (ACS) [doi].
(last updated on 2026/01/19)Abstract:
Walsh diagrams, contour maps, and the atomic character and energies of the frontier molecular orbitals derived from SCF-Xα-DV calculations have been employed to deduce the most favorable mode of nucleophilic attack at homoleptic metal carbonyl radicals constrained to ideal octahedral, trigonal-bipyramidal, square-pyramidal, and tetrahedral geometries. These studies show that two-center three-elelctron bonding may stabilize a hypervalent 19-electron (19e) transition state or intermediate formed during nucleophilic attack. Spin-polarized calculations suggest a difference between these 19e species and those formed via reduction of saturated, 18e organometallics. For example, little spin density is calculated to delocalize onto the CO ligands when a nucleophile attacks Mn(CO)5 to form a 19e complex. Nucleophilic attack at a face, rather than at an edge of an octahedron, is predicted for the 17e complex V(CO)6 . Nucleophilic attack at the open face of the square pyramid is the only mode of attack (of six available) that can be stabilized by two-center three-electron bonding for the square-pyramidal 17e complex Mn(CO)5 . Preferred attack at an edge in the equatorial plane is predicted for the trigonalbipyramidal 17e radical Mn(CO)5 . Attack at a tetrahedral face, analogous to SN 2 substitution at carbon, is predicted for the tetrahedral 17e species Co(CO)4 . © 1988, American Chemical Society. All rights reserved.