Supramolecular assembly of cobaloxime on nanoring-coated carbon nanotubes: addressing the stability of the pyridine-cobalt linkage under hydrogen evolution turnover conditions.

Donck, Simon; Fize, Jennifer; Gravel, Edmond; Doris, Eric; Artero, Vincent

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Royal Society of Chemistry, Chemical Communications, 79(52), p. 11783-11786

DOI: 10.1039/c6cc06059e

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Supramolecular assembly of cobaloxime on nanoring-coated carbon nanotubes: addressing the stability of the pyridine-cobalt linkage under hydrogen evolution turnover conditions.

Journal article published in 2016 by Simon Donck, Jennifer Fize, Edmond Gravel

, Eric Doris, Vincent Artero

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Abstract

A carbon nanotube-cobaloxime nanohybrid was prepared through supramolecular assembly of tailored polymerizable amphiphiles, leading to the coordination of cobalt on pyridine-coated nanotubes. This material was used as a catalyst for hydrogen evolution in fully aqueous media. This study provides a definitive asset regarding the stability of the pyridine-cobalt axial bond under H2 evolution turnover conditions.

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Supramolecular assembly of cobaloxime on nanoring-coated carbon nanotubes: addressing the stability of the pyridine-cobalt linkage under hydrogen evolution turnover conditions.

Abstract