Control of S-based aggregation: designed synthesis of NiM2 and Ni2M trinuclear complexes.
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abstract
Modification of the nickel dithiolate metalloligand, Ni(bme-daco) [where bme-daco = bis(mercaptoethyl)diazacyclooctane] or Ni-1, by oxygenation of one thiolate into a sulfinate, Ni(mese-daco) [where mese-daco = (mercaptoethyl)(sulfinatoethyl)diazacyclooctane] or Ni-2, restricts the ligating ability to monodentate and is expected to reduce the donor ability of the remaining thiolate S. Nevertheless, the Ni-2 complex forms a stable thiolate S-bound adduct of W0(CO)5, (Ni-2)W(CO)5, a complex whose upsilon(CO) IR spectrum reports insignificant differences in the donor abilities of Ni-1 and Ni-2 in (eta1-NiN2S2)W(CO)5 complexes. In the presence of the strong sulfophile CuI, a CuNi2 trimetallic, (Ni-2)2CuBr, was isolated. Another trimetallic, (mu-eta2-Ni-1)[W(CO)5]2, demonstrated the Ni(bme-daco), Ni-1, unit to bridge low-valent metals in a transoid configuration, yielding W-W distances of over 5 A.