Derivatives of bivalent germanium, tin, and lead. Part VII. Chromium, molybdenum, and tungsten pentacarbonyl complexes of tin(II) bis(β-ketoenolates)
Abstract
Bis(β-ketoenolato)tin(II)-metal pentacarbonyl complexes, [(O:CR′·CH:CR·O–)2SnM(CO)5](R = R′= Me or CF3; R = Me, R′= Ph or CF3; M = Cr, Mo, or W), have been synthesised by photolysis of the Group 6 metal hexacarbonyl and tin(II) bis(β-ketoenolate) in tetrahydrofuran (thf). The i.r. spectra indicate that chelation of the β-ketoenolate residues does not change significantly on complex formation. The complexes exhibit very low isomer shifts (1.80–2.11 mm s–1), usually assumed to be characteristic of tin(IV) compounds, and demonstrate the invalidity of the use of the isomer shift of β-tin (2.56 mm s–1) as the arbitrary dividing line between the two oxidation states. The n.m.r. and Mössbauer data have been interpreted in terms of synergic (σ+π) interaction along the tin-transition metal axis.