Angewandte Chemie International Edition by Bin Hu, Jianfeng Li
Abstract
The first X-ray single-crystal structure of a {FeNO}8 porphyrin complex [Co(Cp)2][Fe(TFPPBr8)(NO)], and the structure of the {FeNO}7 precursor [Fe(TFPPBr8)(NO)] are determined at 100 K. The two complexes are also characterized by FTIR and UV/Vis spectroscopy. [Fe(TFPPBr8)(NO)]− shows distinct structural features in contrast to a nitrosyl iron(II) porphyrinate on the FeNO− moiety, which include a much more bent FeNO− angle (122.4(3)°), considerably longer FeNO− (1.814(4)) and NO− (1.194(5) Å) bond distances. These and the about 180 cm−1 downshift νN-O stretch (1540 cm−1) can be understood by the covalently bonding nature between the iron(II) and the NO− ligand which possesses a two-electron-occupied π* orbital as a result of the reduction. The overall structural features of [Fe(TFPPBr8)(NO)]− and [Fe(TFPPBr8)(NO)] suggest a low-spin state of the iron(II) atom at 100 K.
Bioinorganic chemistry: The first X-ray single-crystal structure of a {FeNO}8 porphyrin complex [Co(Cp)2][Fe(TFPPBr8)(NO)] and the structure of the {FeNO}7precursor [Fe(TFPPBr8)(NO)] are reported. [Fe(TFPPBr8)(NO)]− shows a much more bent FeNO− angle (122.4(3)°) and longer FeNO− and NO− bond distances than the nitrosyl iron(II) analogs (see picture).
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