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Issue 29, 2018
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Photoelectron spectroscopic and computational studies of [EDTA·M(III)] complexes (M = H3, Al, Sc, V–Co)

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Abstract

Metal–EDTA complexes commonly exist as biological redox reagents. We have generated a series of such complexes, [EDTA·M(III)] (M = Al, Sc, V–Co), via electrospray ionization and characterized them by cryogenic mass-selected negative ion photoelectron spectroscopy (NIPES) and quantum chemical computations. Experiments clearly revealed one more spectral band at low electron binding energy for transition metal complexes with d electrons (M = V–Co) compared to those without d electrons (M = Al and Sc). Quantum chemical calculations suggested that all of the metal complexes possess hexacoordinated metal–ligand binding motifs, from which the calculated adiabatic/vertical detachment energy (ADE/VDE) and band gaps are in good agreement with experimental values. Direct spectrum and electronic structure analyses indicted that [EDTA·V(III)] can be easily oxidized to [EDTA·V(IV)] with the smallest ADE/VDE of 3.95/4.40 eV among these metal complexes, but further oxidation is hindered by the existence of a 2.30 eV band gap, a fact that accords with the special redox behavior of vanadium-containing species in biological cells. Spin density and molecular orbital analyses reveal that [EDTA·V(III)] was overwhelmingly detached from the vanadium atom, in stark contrast to [EDTA·Sc(III)/Al(III)], where the detachment occurred from the EDTA ligand. For all other metal complex anions, from M = Cr to Co, the detachment process is derived from contributions from both the metal and ligand. The intrinsic electronic and geometric structures of these complexes, obtained in this work, provide a molecular foundation to better understand their redox chemistries and specific metal bindings in condensed phases and biological cells.

Graphical abstract: Photoelectron spectroscopic and computational studies of [EDTA·M(iii)]− complexes (M = H3, Al, Sc, V–Co)

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Publication details

The article was received on 09 Mar 2018, accepted on 02 Jul 2018 and first published on 03 Jul 2018


Article type: Paper
DOI: 10.1039/C8CP01548A
Citation: Phys. Chem. Chem. Phys., 2018,20, 19458-19469
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    Photoelectron spectroscopic and computational studies of [EDTA·M(III)] complexes (M = H3, Al, Sc, V–Co)

    Q. Yuan, X. Kong, G. Hou, L. Jiang and X. Wang, Phys. Chem. Chem. Phys., 2018, 20, 19458
    DOI: 10.1039/C8CP01548A

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