Gisèle Gellon scite author profile

Bis(μ-hydroxo)dicopper(II,II) bearing a naphthyridine-based ligand has been synthesized and characterized in the solid state and solution. Cyclic voltammetry at room temperature displays a reversible redox system that corresponds to the monoelectronic oxidation of the complex. Spectroscopic and time-resolved spectroelectrochemical data coupled to theoretical results support the formation of a charge-localized mixed-valent Cu(II,III)2 species.

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A Nanotube-Supported Dicopper Complex Enhances Pt-free Molecular H2/Air Fuel Cells

Gentil

Molloy

Carrière

et al. 2019

Joule

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The future deployment of hydrogen fuel cells on a large scale will only be achieved if catalysts based on Earth-abundant elements are found to replace currently used rare and expensive noble metals. In this work, we integrated a novel copper-based bioinspired molecular catalyst in a fuel cell, owing to its immobilization on carbon nanotubes. This fuel cell is a first proof of concept for a H 2 /air fuel cell based on non-precious-metals, inspired from the active site of nickel and copper-based enzymes.

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Stable Anilinyl Radicals Coordinated to Nickel: X‐ray Crystal Structure and Characterization

Kochem

Gellon

Leconte

et al. 2013

Chemistry A European J

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Two anilinosalen and a mixed phenol-anilinosalen ligands involving sterically hindered anilines moieties were synthesized. Their nickel(II) complexes 1, 2, and 3 were prepared and characterized. They could be readily one-electron oxidized (E(1/2)=-0.30, -0.26 and 0.10 V vs. Fc(+)/Fc, respectively) into anilinyl radicals species [1](+), [2](+), and [3](+), respectively. The radical complexes are extremely stable and were isolated as single crystals. X-ray crystallographic structures reveal that the changes in bond length resulting from oxidation do not exceed 0.02 Å within the ligand framework in the symmetrical [1](+) and [2](+). No quinoid bond pattern was present. In contrast, larger structural rearrangements were evidenced for the unsymmetrical [3](+), with shortening of one C(ortho)-C(meta) bond. Radical species [1](+) and [2](+) exhibit a strong absorption band at around 6000 cm(-1) (class III mixed valence compounds). This band is significantly less intense than [3](+), consistent with a rather localized anilinyl radical character, and thus a classification of this species as class II mixed-valence compound. Magnetic and electronic properties, as well as structural parameters, have been computed by DFT methods.

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Gisèle Gellon

Room-Temperature Characterization of a Mixed-Valent μ-Hydroxodicopper(II,III) Complex

A Nanotube-Supported Dicopper Complex Enhances Pt-free Molecular H2/Air Fuel Cells

Stable Anilinyl Radicals Coordinated to Nickel: X‐ray Crystal Structure and Characterization

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