We report structural and spectroscopic data for a series of six-coordinate (nitrosyl)iron(II) porphyrinates. The structures of three tetraphenylporphyrin complexes [Fe(TPP)-(NO)(L)], where L = 4-dimethylaminopyridine, 1-methylimidazole and 4-methylpiperidine, are reported here to a high degree of precision and allow observation of several previously unobserved structural features. The tight range of bonding parameters for the {FeNO} moiety for these three complexes suggests a canonical representation for six-coordinate systems (Fe–Np = 2.007 Å, Fe–N(NO) = 1.753 Å, ∠FeNO = 138.5°). Comparison of this data with that obtained previously for five-coordinate systems allows the precise determination of the structural effects of binding a sixth ligand. These include lengthening of the Fe–N(NO) bond and a decrease in the Fe–N–O angle. Several other aspects of the geometry of these systems are also discussed including the first examples of off-axis tilting of a nitrosyl ligand in a six-coordinate {FeNO} heme system. We also report the first examples of Mössbauer studies for these complexes. Measurements have been made in several applied magnetic fields as well as in zero field. The spectra differ from their five-coordinate analogues. In order to obtain reasonable fits to applied magnetic field data, rotation of the electrical field gradient is required, consistent with differing g-tensor orientations in the five- vs. six-coordinate species.
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