Synthesis, Characterisation and Molecular Hyperpolarisabilities of Pseudo- Octahedral Hydrido(nitrile)iron(II) Complexes for Nonlinear Optics: X-ray Structure of [Fe(H)(dppe)2(4-NCC6H4NO2)][PF6]·CH2Cl2
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Wiley
Abstract
A series of ionic pseudo-octahedral trans-hydrido(nitrile)-
iron(II) complexes with the general formula [Fe(H)(dppe)2(4-
NCR)][PF6] [dppe = 1,2-bis(diphenylphosphanyl)ethane; R =
acceptor-substituted conjugated ligand] have been synthesised
by chloride abstraction from the starting compound
trans-[FeHCl(dppe)2] and fully characterised. First hyperpolarisabilities
(β) have been determined by hyper-Rayleigh
scattering (HRS) at the fundamental wavelength of 1072 nm
and the high near-resonant values obtained (up to 1130 × 10–
30
esu) are interpreted in terms of the two-level model (TLM)
and are correlated with IR and NMR spectroscopic data. Wavelength-dependent HRS has been performed in the 1072–1580 nm range for two of the compounds, namely
[Fe(H)(dppe)2{4-NC(CH)(CH)C6H4NO2}][PF6] and [Fe(H)-
(dppe)2{4-NCC6H4(CH)(CH)C6H4NO2}][PF6]. These results
clearly show the two-photon resonance but also the shortcomings
of the TLM when it comes to deriving reliable static
β values. A structural study of the compound [Fe(H)(dppe)2-
(4-NCC6H4NO2)][PF6] by X-ray diffraction shows that it crystallises
in the centrosymmetric monoclinic space group
P21/n, with four molecules in the unit cell and a pairwise
antiparallel alignment of the dipoles.
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Citation
Eur. J. Inorg. Chem., 2006, 11, 2175-2185