Synthesis and electrochemical properties of metal()-carboxyethylphenylphosphinates
We report herein the synthesis, structural characterization and electrocatalytic properties of three new coordination polymers, resulting from the combination of divalent metal (Ca 2+ , Cd 2+ or Co 2+ ) salts with (2-carboxyethyl)(phenyl)phosphinic acid. In addition to the usual hydrothermal procedu...
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Veröffentlicht in: | Dalton transactions : an international journal of inorganic chemistry 2021-05, Vol.5 (19), p.6539-6548 |
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Sprache: | eng |
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Zusammenfassung: | We report herein the synthesis, structural characterization and electrocatalytic properties of three new coordination polymers, resulting from the combination of divalent metal (Ca
2+
, Cd
2+
or Co
2+
) salts with (2-carboxyethyl)(phenyl)phosphinic acid. In addition to the usual hydrothermal procedure, the Co
2+
derivative could also be prepared by microwave-assisted synthesis, in much shorter times. The crystal structures were solved by
ab initio
calculations, from powder diffraction data. Compounds M
II
[O
2
P(CH
2
CH
2
COOH)(C
6
H
5
)]
2
{M = Cd (
1
) or Ca (
2
)} crystallize in the monoclinic system and display a layered topology, with the phenyl groups pointing toward the interlayer space in a interdigitated fashion. Compound Co
2
[(O
2
P(CH
2
CH
2
COO)(C
6
H
5
)(H
2
O)]
2
·2H
2
O (
3
) presents a 1D structure composed of zig-zag chains, formed by edge-sharing cobalt octahedra, with the phenyl groups pointing outside. Packing of these chains is favored by hydrogen bond interactions
via
lattice water molecules. In addition, H-bonds along the chains are established with the participation of the water molecules and the hydrophilic groups from the ligand. However, the solid exhibits a low proton conductivity, attributed to the isolation of the hydrophilic regions caused by the arrangement of hydrophobic phenyl groups. Preliminary studies on the electrocatalytic performance for the oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) have been conducted for compound
3
and its pyrolytic derivatives, which were previously thoroughly characterized. By comparison, another Co
2+
phosphinate,
4
, obtained by microwave-assisted synthesis, but with distinct stoichiometry and a known structure was also tested. For the OER, the best performance was achieved with a derivative of
3
, prepared by heating this compound in N
2
at 200 °C. This derivative showed overpotential (339 mV, at a current density of 10 mA cm
−2
) and Tafel slope (51.7 mV dec
−1
) values comparable to those of other Co
2+
related materials.
Structurally versatile divalent metal phosphinates are studied as precursors of electrocatalysts (Co
2+
) for the OER and ORR. |
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ISSN: | 1477-9226 1477-9234 |
DOI: | 10.1039/d1dt00104c |