Reductive Disproportionation of Carbon Dioxide by Dianionic Carbonylmetalates of the Transition Metals.

Abstract

Carbon dioxide reacts readily with M2(M'(CO)5) (M = Li, Na, K, M' = W; M = K, M' = Cr, Mo, W) to give the corresponding group 6 hexacarbonyls (M(CO)6) and alkali metal carbonates. The reaction of Li2(W(CO)5) with excess 13CO2 at -78 C gives (W(CO)5(13CO)), confirming that the reaction involves reductive disproportionation of CO2 to CO and CO3(2-). The group 8 carbonylmetalates Na2(M(CO)4) (M = Fe, Ru, Os) react with CO2 to give (M(CO)5) and carbonate, and Na2(V(eta-C5H5)(CO)3) reacts with CO2 to give (V(eta-C5H5)(CO)4) and carbonate, indicating that reductive disproportionation is a general reaction of dianionic carbonylmetalates with CO2. Careful addition of one equivalent of CO2 to a solution of Li2(W(CO)5) at -78 C leads to an intermediate 1:1 adduct with an IR spectrum consistent with formulation as Li2(W(CO)5(eta 1-CO2)). The principal 13C absorption at 223.4 delta of a sample of Li2(W(CO)5(eta 1-13CO2)) prepared at -78 C exhibits Jw-c = 92 Hz, consistent with the central C being directly bonded to W and superscript 2 hybridized. Oxide scrambling from coordinated CO2 to coordinated CO at higher temperatures results in complex signals between 205 and 201 sigma assigned to the carbonyl ligands.

Document Details

Document Type

Technical Report

Publication Date

Apr 25, 1986

Accession Number

ADA168211

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