TRANSITION-METAL SCHIFF-BASE COMPLEXES AS LIGANDS IN TIN CHEMISTRY .6. REACTIONS OF DIORGANOTIN(IV) DINITRATES WITH M(3MEO-SAL1,3PN) [M=NI,CO OR ZN - H-2,3 MEO-SAL1,3PN=N,N'-BIS (3-METHOXYSALICYLIDENE)PROPANE-1,3-DIAMINE]

Reactions of diorganotin(IV) dinitrates with M(3MeO-sal1,3pn). H2O (M = Ni, Co or Zn; H(2)3MeO-sal1,3pn = ,N'-bis(3-methoxysalicylidene)prop ane-1,3-diamine) leads to nitrate migration from tin to the transition metal or zinc and the formation of intimate ion-paired bimetallic 1/1 addition complexes. In each of these complexes the tin atom is locate d in the plane of the Schiff-base oxygens and is coordinated by all fo ur. The complexes [SnBz(2)(NO3)].[M(3MeO-sal1,3pn)(NO3)](M = Co or Zn) are isomorphous and each contains tin in a pentagonal bipyramidal env ironment with the four Schiff-base oxygens and a nitrate oxygen defini ng the equatorial plane. In the case of {[SnMe(2)].[Ni(3MeO-sal1,3pn)( NO3)(H2O)]}NO3, the tin is six-coordinated, but there is an additional weak intermolecular Sn-O interaction involving an oxygen of a nitrate coordinated to nickel. The complex {[SnMe(2)(H2O)].[CO(3MeO-sal1,3pn) (NO (3))(H2O)]}NO3 contains tin in a pentagonal bipyramidal environmen t with the Schiff-base oxygens and a water oxygen defining the equator ial plane. The crystal structures of both dimethyltin complexes displa y extensive hydrogen bonding.