화학공학소재연구정보센터
Inorganic Chemistry, Vol.59, No.2, 1513-1521, 2020
Zwitterionic Ammoniumalkenyl Ligands in Metal Cluster Complexes. Synthesis, Structures, and Transformations of Zwitterionic Trimethylammoniumalkenyl Ligands in Hexaruthenium Carbido Carbonyl Complexes
Ru-6(mu(6)-C)(CO)(17), 1, has been shown to react with C2H2 when activated by Me3NO to yield the complexes Ru6C(CO)(15)(mu-eta(2)-C2H2NMe3), 2, and Ru6C(CO)(14)(mu(3)-eta(4)-C4H4NMe3), 3, containing a bridging 2-trimethylammoniumethenyl (C2H2NMe3) ligand and a triply bridging 4-trimethylammoniumbutadienyl (C4H4NMe3) ligand, respectively. Complexes 2 and 3 are formally zwitterionic by-virtue of the positive charge on the nitrogen atom and a negative charge that must be assigned formally to the Ru6 cluster. Compound 2 added CO at room temperature to yield the compound Ru6C(CO)(16)(eta(1)-E-C2H2NMe3), 4, that contains a terminally coordinated zwitterionic 2-trimethylammoniumethenyl ligand. Compounds 2 and 3 eliminated the NMe3 grouping, reversibly, when heated to yield the ethyne cluster complex Ru6C(CO)(15)(mu(3)-C2H2), 5, and the butadiendiyl cluster complex Ru6C(CO)(14)(mu(3)-eta(4)-C4H4), 6, respectively. Compound 3 was obtained from 2 by addition of C2H2 in the presence of Me3NO. Reaction of 1 with methyl propiolate, HC2CO2Me, yielded the CO2CH3 substituted zwitterionic complex Ru6C(CO)(16)[eta(1)-E-(C(CO2Me)=C(H)NMe3], 7, which contains the terminally coordinated zwitterionic ligand, C(CO2Me)=C(H)NMe3. Compound 7 eliminated NMe3 and CO when heated to 83 degrees C to yield the methoxycarbonyl alkyne complex Ru6C(CO)(15)[mu(3)-HC2(CO2Me)], 8. All new products, 2-8, were characterized structurally by single-crystal X-ray diffraction analyses.