Density Functional Investigation of Metal-Metal Interactions in Mixed-Valence d 2 d 3 (Cr, Mo, W) and d 3 d 4 (Mn, Tc, Re) Face-Shared [M 2 Cl 9 ] 2- Systems

Date

2004

Authors

Cavigliasso, German
Comba, Peter
Stranger, Robert

Journal Title

Journal ISSN

Volume Title

Publisher

American Chemical Society

Abstract

The molecular and electronic structures of mixed-valence face-shared (Cr, Mo, W) d2d3 and (Mn, Tc, Re) d3d4 [M2Cl9]2- dimers have been calculated by density functional methods in order to investigate metal-metal bonding in this series. The electronic structures of these systems have been analyzed using potential energy curves for the broken-symmetry and other spin states arising from the d2d3 and d3d4 coupling modes. In (d2d3) [Mo2Cl9] 2- and [W2Cl9]2-, the global minimum has been found to be a spin-doublet state characterized by delocalization of the metal-based electrons in a multiple metal-metal bond (with a formal bond order of 2.5). In contrast, weak coupling between the metal centers and electron localization are favored in (d2d3) [Cr2Cl 9]2-, the global minimum for this species being a ferromagnetic S = 5/2 state with a relatively long Cr-Cr separation. The (d 3d4) [Re2Cl9]2- system also exhibits a global minimum corresponding to a metal-metal bonded spin-doublet state with a formal bond order of 2.5, reflecting the electron-hole equivalence between d2d3 and d3d4 configurations. Double minima behavior is predicted for (d3d 4) [Tc2Cl9]2- and [Mn 2Cl9]2- due to two energetically close low-lying states (these being S = 3/2 and S = 5/2 states for the former, and S = 5/2 and S = 7/2 states for the latter). A comparison of computational results for the d2d2, d2d3, and d 3d3 [W2Cl9]z- series and the d3d3, d3d4, and d 4d4 [Re2Cl9]z- series indicates that the observed trends in metal-metal distances can only be rationalized if changes in both the strength of σbonding and metal-metal bond order are taken into consideration. These two factors act conjointly in the W series but in opposition to one another in the Re series. In the case of the [Cr2Cl9]z- and [Mn2Cl 9]z- dimers, the metal-metal bond lengths are significantly shorter for mixed-valence (d2d3 or d 3d4) than d3d3 systems. This result is consistent with the fact that some degree of metal-metal bonding exists in the former (due to partial delocalization of a single σ electron) but not in the latter (where all metal-based electrons are completely localized).

Description

Keywords

Keywords: chlorine derivative; chromium; manganese; metal derivative; molybdenum; rhenium; technetium; tungsten; article; calculation; chemical structure; density functional theory; dimerization; electron transport; energy; mathematical computing; metal binding; mo

Citation

Source

Inorganic Chemistry

Type

Journal article

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2037-12-31