The Substitution Kinetics and Electronic Absorption Spectroscopy of Some Molybdenum and Tungsten Bis-Dinitrogen Complexes

Author: Carter, Boyd Jay

Year: 1979

Degree: Dissertation (Ph.D.)

Advisors: Bercaw, John E.; Gray, Harry B.

Committee Member: Unknown, Unknown

Option: Chemistry

Abstract

The electronic absorption spectra of ttans-[M(N₂)₂(dpe)₂], trans-[Mo(N₂)(RCN)(dpe)₂], and cis-[M(N₂)₂(PMe₂Ph)₄] (M = Mo, W; dpe = (C₆H₅)₂PCH₂CH₂P(C₆H₅)₂; PMe₂Ph = P(CH₃)₂C₆H₅) were measured and assigned. All of the charge transfer (CT) transitions were metal-to-ligand CT transitions. The lowest energy CT transition in each spectrum was assigned as a M → Pdπ CT transition, and the low energy shoulders on this transition were assigned as ligand field transitions. The highest energy CT transition was assigned as a M → N₂π* CT transition in each case.

The kinetics and mechanisms for the substitution of nitriles for dinitrogen in trans-[M(N₂)₂(dpe)₂] and cis-[M(N₂)₂(PMe₂Ph)₄] were studied. In the reaction of trans-[Mo(N₂)₂(dpe)₂] with nitriles, one dinitrogen was replaced by a nitrile. All of the kinetic data support an S_N1 dissociative mechanism. The analogous reaction with trans-[WN₂)₂(dpe)₂] was found to proceed only photochemically, with the loss of one dinitrogen induced by population of the ^1,3E_g state. In the reactions of cis- [M(N₂)₂(PMe₂Ph)₄] with nitriles, both dinitrogen ligands were replaced by nitriles. The reaction mechanism for both compounds consists of two consecutive S_N1 dissociative steps.

The reactions of cis-[W(N₂)₂(C₆H₅CN)(PMe₂Ph)_4], cis- [W(C₆H₅CN)₂(PMe₂Ph)₄], and trans-[Mo(N₂)(C₆H₅CN)(dpe)₂] with anhydrous HCl were also studied. The reaction of the latter compound with HCl to yield [Mo(Cl)(N₂H₂)(dpe)₂] was particularly noteworthy.

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