E.M. Arce-Estrada scite author profile

This work deals with the electrochemical nucleation of cobalt, onto a glassy carbon electrode, from a deep eutectic solvent formed by choline chloride and urea in a 1:2 molar ratio. The nucleation mechanism was studied through electrochemical techniques. From the analysis of the experimental potentiostatic current transients, the kinetic parameters such as the nucleation frequency, A, and the number density of active sites, N0, were determined. In this work, A was also expressed as a function of the wetting angle, θ, (A(θ)) where the local distribution of θ was calculated through a stochastic simulation of the misorientation angle distribution derived from a created random texture. The A(θ) obtained from such a stochastic approach was in good agreement with the experimental data thus leading to determination of the Gibbs free energy of nucleation ΔG(nc) and the critical nucleus size nc, aside from other kinetic parameters such as the transfer coefficient α, the exchange current density j0, and the surface tension σ. Furthermore, a new method of calculating the nucleation energy from a voltammetric trace recorded during cobalt nucleation onto glassy carbon was proposed and validated. This method provides a novel tool to assess the experimental magnitude and to measure the nucleation energy.

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Electrochemical Synthesis of Cobalt with Different Crystal Structures from a Deep Eutectic Solvent

Manh

Arce-Estrada

Mejía-Caballero

et al. 2018

J. Electrochem. Soc.

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The present paper shows experimental evidence of electrochemically synthetizing cobalt with hexagonal and face centered cubic structures from a choline chloride-based deep eutectic solvent. The nucleation and diffusion-controlled growth mechanisms of cobalt onto a copper electrode were studied through electrochemical means in order to determine several kinetic parameters of interest such as the nucleation rate, A, and the number density of active sites, N 0 . Current density transients were analyzed using a model comprising the simultaneous presence of cobalt 3D nucleation with diffusion-controlled growth and residual water reduction on the growing surfaces of the metallic nuclei. The massive electrodeposition of cobalt was carried out on copper substrates using potentiostatic and galvanostatic techniques. The analysis of results obtained from the surface deposit microstructure and morphology using scanning electron microscopy images and magnetic measurements, confirmed the existence of the hexagonal and cubic cobalt structures. It was found that fiber textures parallel to the electrodeposition axis are formed in the case of the cobalt cubic structure. Furthermore, mainly the current density and kinetics of crystallites nucleation are considered the key parameters to favor the crystal structure change, thus formation of the texture of cobalt from DES.

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E.M. Arce-Estrada

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Electrochemical Synthesis of Cobalt with Different Crystal Structures from a Deep Eutectic Solvent

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