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Open AccessArticle

Magnetoelectrochemistry and Asymmetric Electrochemical Reactions

Department of Chemical and Biological Physics, Perlman Building, Weizmann Institute of Science, Rehovot 761000, Israel
Department of Engineering “Enzo Ferrari”, University of Modena and Reggio Emilia, 41125 Modena, Italy
Author to whom correspondence should be addressed.
Magnetochemistry 2020, 6(1), 1;
Received: 23 August 2019 / Revised: 22 September 2019 / Accepted: 13 December 2019 / Published: 18 December 2019
Magnetoelectrochemistry is a branch of electrochemistry where magnetic fields play a vital role in the oxidation and reduction process of the molecules. When it comes to spin-dependent electrochemistry (SDE), becomes a new paradigm. This work presents electrochemical response during the “chiral imprinting” on working electrodes and the effects of potentiostatic and galvanostatic methods. We explore the use of the SDE concept, which is implemented for chiral-ferromagnetic (CFM) hybrid working electrodes, and we compare various electrochemical parameters affecting the quality of deposition. We electrochemically co-deposited nickel (Ni) with a chiral compound (tartaric acid) in its enantiopure forms (L and D), which allows us to obtain a chiral co-deposited nickel-tartaric acid (Ni-LTA or Ni-DTA) working electrode. View Full-Text
Keywords: asymmetric reaction; chiral imprinting; electrodeposition; chiral nickel asymmetric reaction; chiral imprinting; electrodeposition; chiral nickel
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Mishra, S.; Marzio, M.; Giovanardi, R.; Tassinari, F. Magnetoelectrochemistry and Asymmetric Electrochemical Reactions. Magnetochemistry 2020, 6, 1.

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