Results are presented concerning the influence on the water splitting process of enantiopure tartaric acid present in bulk solution. Stainless steel and electrodeposited nickel are used as working electrode (WE) surface. The latter is obtained by electrodeposition on the two poles of a magnet. The influence and role played by the chiral compound in solution has been assessed by comparing the current values, in cyclic voltammetry (CV) experiments, recorded in the potential range at which oxygen evolution reaction (OER) occurs. In the case of tartaric acid and nickel WE a spin polarization of about 4% is found. The use of the chiral environment (bulk solution) and ferromagnetic chiral Ni electrode allows for observing the OER at a more favorable potential: About 50 mV (i.e., a cathodic, less positive, shift of the potential at which the oxygen evolution is observed).
Influence of Chiral Compounds on the Oxygen Evolution Reaction (OER) in the Water Splitting Process / Gazzotti, Mirko; Stefani, Andrea; Bonechi, Marco; Giurlani, Walter; Innocenti, Massimo; Fontanesi, Claudio. - In: MOLECULES. - ISSN 1420-3049. - ELETTRONICO. - 25:(2020), pp. 3988-3988. [10.3390/molecules25173988]
Influence of Chiral Compounds on the Oxygen Evolution Reaction (OER) in the Water Splitting Process
Stefani, Andrea;Bonechi, Marco;Giurlani, Walter;Innocenti, Massimo
;
2020
Abstract
Results are presented concerning the influence on the water splitting process of enantiopure tartaric acid present in bulk solution. Stainless steel and electrodeposited nickel are used as working electrode (WE) surface. The latter is obtained by electrodeposition on the two poles of a magnet. The influence and role played by the chiral compound in solution has been assessed by comparing the current values, in cyclic voltammetry (CV) experiments, recorded in the potential range at which oxygen evolution reaction (OER) occurs. In the case of tartaric acid and nickel WE a spin polarization of about 4% is found. The use of the chiral environment (bulk solution) and ferromagnetic chiral Ni electrode allows for observing the OER at a more favorable potential: About 50 mV (i.e., a cathodic, less positive, shift of the potential at which the oxygen evolution is observed).
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