Electronic Configuration Assignment and the Importance of Low-Lying Excited States in High-Spin Imidazole-Ligated Iron(II) Porphyrinates

Hu, Chuanjiang; Roth, Arne; Ellison, Mary K.; An, Jie; Ellis, Christina M.; Schulz, Charles E.; Scheidt, W. Robert

doi:10.1021/ja044077p

Cited by 72 publications

(119 citation statements)

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“…[22] Care was taken not to expose the FeTPP to air in view of their well-known reactivity towards oxygen. [41] Accordingly the molecules were always transferred to UHV under inert gas atmosphere. The porphyrins were first outgassed in vacuum for several hours and then evaporated from an organic molecular beam epitaxy cell at 525 K onto the substrate kept at 330 K. This provided a deposition rate of about 0.05 monolayers (ML) per minute.…”

Section: Methodsmentioning

confidence: 99%

Controlled Metalation of Self‐Assembled Porphyrin Nanoarrays in Two Dimensions

et al. 2007

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We report a bottom-up approach for the fabrication of metallo-porphyrin compounds and nanoarchitectures in two dimensions. Scanning tunneling microscopy and tunneling spectroscopy observations elucidate the interaction of highly regular porphyrin layers self-assembled on a Ag(111) surface with iron monomers supplied by an atomic beam. The Fe is shown to be incorporated selectively in the porphyrin macrocycle whereby the template structure is strictly preserved. The immobilization of the molecular reactants allows the identification of single metalation events in a novel reaction scheme. Because the template layers provide extended arrays of reaction sites, superlattices of coordinatively unsaturated and magnetically active metal centers are obtained. This approach offers novel pathways to realize metallo-porphyrin compounds, low-dimensional metal-organic architectures and patterned surfaces which cannot be achieved by conventional means.

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Section: Methodsmentioning

confidence: 99%

Controlled Metalation of Self‐Assembled Porphyrin Nanoarrays in Two Dimensions

et al. 2007

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“…The (d xy ) 2 (dxz) 1 (d yz ) 1 (d z2 ) 1 (d x2-y2 ) 1 ground state has also been assigned for [Fe(TPP) (OPh)] -13 and Na(222)[Fe(OAc)(TpivPP)].14 Indeed, we believe that the (d xy ) 2 …”

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confidence: 85%

Proton-Mediated Electron Configuration Change in High-Spin Iron(II) Porphyrinates

Noll

Schulz

et al. 2005

J. Am. Chem. Soc.

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Heme proteins carry out a phenomenal range of biological processes with a common prosthetic group and a relatively small variety of axial ligands. In this paper, we report the effects on the molecular and electronic structure when the imidazole ligand is deprotonated in five-coordinate iron(II) [Fe(Por)(2-MeHIm)] derivatives. 1 Although imidazole-and imidazolate-ligated iron (II) porphyrinates both exhibit an S = 2 (quintet) state, the coordination group geometries are distinctly different with axial and equatorial bond distance differences and large changes in the displacement of iron from the porphyrin plane. The Mössbauer spectra obtained in strong magnetic fields clearly indicate a difference between the two classes in the d orbital that is doubly occupied. This change in the d-electron configuration is clearly consistent with all observed differing features and may provide control of reactivity for different classes of heme proteins.We have recently reported the synthesis, molecular and electronic structure characterization of several five-coordinate imidazole-ligated iron(II) porphyrinates. 2-4 The structural features showed a strong consistency. The displacement of the iron atom from the four nitrogen atom plane is effectively constant at 0.36 Å, although there is a range of core doming due to core conformation change.5 The axial and equatorial Fe-N bond distances of six derivatives vary over a very narrow range. Moreover, the Mössbauer spectra of nine different derivatives in small and strong applied magnetic field were found to have quadrupole splittings that are strongly temperature dependent and with a negative value of the quadrupole splitting. Values of the quadrupole splitting at 4.2 K ranged from -1.93 to -2.44 44 mm/s.We have now prepared and characterized two new fivecoordinate iron(II) complexes in which the axial ligand is 2-methylimidazolate, i.e., the deprotonated ligand. Deprotonation leads to a series of remarkable differences in properties of the new derivatives compared to the neutral imidazole complexes. The structure of the anion in [K(222)][Fe(OEP)(2-MeIm-)] is shown in Figure 1. An illustration of the full molecule is given in Figure S1 Tables S1 and S2 give full details on the fits. Tables S3-S14 give complete crystallographic details, atomic coordinates, distances and angles, anisotropic temperature factors, and fixed hydrogen atom positions for [K(222) involving the two nitrogen atoms are similar in imidazolate and different in imidazole. Second, the imidazolate ligand is known7 to be a stronger field ligand than imidazole and is also expected to be a better s donor; that these effects lead to an ∼0.09 Å axial Fe-N bond distance shortening, favoring imidazolate, is sensible. The reasons for the differences in the iron equatorial parameters are less obvious. Why should the displacement of iron(II) be much larger (0.20 Å) when imidazolate is the axial ligand than when imidazole is the axial ligand since the iron has a high-spin state in both? Concomitantly, why should the equatorial...

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“…Most experimental studies agree that the ground state of various Fe-porphyrin rings have an intermediate spin configuration although the details of the electronic structure varies. A ground state configuration ðd xy Þ 2 ðd p Þ 2 ðd z 2 Þ 2 has been indicated by Mö ssbauer [15][16][17], magnetic [18], and NMR [19,20] measurements. Raman spectra, however, predict a ground state arising from ðd xy Þ 2 ðd p Þ 3 ðd z 2 Þ 1 configuration [21].…”

Section: Introductionmentioning

confidence: 98%