Kj. Adams et al., LINKING AND FRAGMENTATION OF ALKYNES AT A TRIRUTHENIUM CENTER, Journal of the Chemical Society. Dalton transactions, (6), 1996, pp. 975-988
The triruthenium mu(3)-alkyne complex (mu-CO)(mu(3)-CO){mu(3)-C-2(CF3)
(2)}(eta-C5H5)(2)] 1 reacted with Me(3)NO in MeCN to give (mu-CO)(mu(3
)-CO){mu(3)-C-2(CF3)(2)}(eta-C5H5)(2)] 2. This with hexafluorobut-2-yn
e at or below room temperature gave u(3)-eta(3)-C-3(CF3)(3)}(mu(3)-CCF
3)(eta-C5H5)(2)] 3, shown by X-ray diffraction to contain a ruthenium
triangle with mu(3)-perfluoroethylidyne and mu(3)-eta(3)-C-3(CF3)(3) l
igands arising from cleavage of one of the hexafluorobut-2-yne molecul
es. In contrast, 2 reacted at room temperature with alkynes diphenylet
hyne, methyl but-2-ynoate and but-2-yne to yield the species 2)(mu-CO)
(2){mu(3)-C-4(CF3)(2)R(R')}(eta-C5H5)(2)] (R = R' = Ph; R = Me, R' = C
O(2)Me; or R = R' = Me) respectively. X-ray diffraction studies on the
first two of these showed that the alkynes have linked to form a mu(3
)-C-4(CF3)(2)R(R') ligand bound to a closed Ru-3 triangle via a doubly
bridging interaction with one pair of metal atoms and an eta(3)-allyl
mode with the other. Dimethyl acetylenedicarboxylate (dmad) reacted w
ith 2 at room temperature differently again to give a structurally uni
dentified species O)(5){C-2(CF3)(2)}{C-2(CO(2)Me)(2)}(eta-C5H5)(2)], w
hich on heating afforded (CO)(3){mu(3)-C-4(CF3)2(CO(2)Me)(2)}(eta-C5H5
)(2)] 12, revealed by X-ray diffraction to contain a closo-pentagonal-
bipyramidal Ru3C4 cluster in which a mu(3)-C-4(CF3)(2)(CO(2)Me)(2) lig
and bridges an open ruthenium triangle. This complex was formed direct
ly when 1 was heated with dmad in refluxing toluene. Analogous complex
es [Ru-3(CO)(3){mu(3)-C-4(CF3)(2)R(R')}(eta-C5H5)(2)] (R = Me, R' = CO
(2)Me; R = R' = Ph; or R = R' = Me) were produced on heating 1 with me
thyl but-2-ynoate, diphenylethyne and but-2-yne respectively. The last
two reactions also gave isomers Ru-3(CO)(3){mu(3)-C-4(CF3)R(2)(CF3)}(
eta-C5H5)(2)] (R = Ph or Me) in which formal insertion of the incoming
alkyne into the co-ordinated CF3C=CCF3 bond has occurred. In addition
, the reaction of 1 with but-2-yne produced 3)-eta(3)-C-3(CF3)Me(2)}(m
u(3)-CCF3)(eta-C5H5)(2)] analogous to 3. Diruthenium species [Ru-2(CO)
{mu-C-4(CF3)(2)R(R')}(eta-C5H5)(2)] are formed in both toluene reflux
reactions of 1 and room-temperature reactions of 2 as a result of trir
uthenium cluster degradation. Heating the room-temperature products (2
)(mu-CO)(2){mu(3)-C-4(CF3)(2)R(2)}(eta-C5H5)(2)] confirms that these a
re intermediates in the formation of the complexes (3)-eta(3)-C-3(CF3)
R(2)}(mu(3)-CCF3)(eta-C5H5)(2)] and the isomeric closo clusters [Ru-3(
CO)(3){mu(3)-C-4(CF3)(2)R(2)}(eta-C5H5)(2)] and u-3(CO)(3){mu(3)-C-4(C
F3)R(2)(CF3)}(eta-C5H5)(2)]. Pathways for the processes leading to the
various products are discussed.