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Kinetic studies of the electrochemical nitrogen reduction and incorporation into yttria stabilized zirconia

Institution:	1. University of Silesia, Institute of Chemistry, Szkolna 9, 40-007 Katowice, Poland;2. Institute of Low Temperature and Structure Research, Polish Academy of Sciences, Okólna 2, 50-422 Wrocław, Poland;1. Institute of Chemistry, University of Silesia, Szkolna 9, 40-006 Katowice, Poland;2. Bialystok University of Technology, Department of Power Engineering, Photonics and Lighting Technology, Wiejska 45D, 15-351 Bialystok, Poland;3. AGH University of Science and Technology, Faculty of Materials Science and Ceramics, Mickiewicza 30, 30-059 Krakow, Poland;1. Faculty of Science and Technology, Tokyo University of Science 2641 Yamazaki, Noda-shi, Chiba-ken, 278-8510, Japan;2. Research Center for Green and Safety Sciences, Tokyo University of Science 1-3 Kagurazaka, Shinjuku, Tokyo, 162-8601, Japan;1. Department of Chemistry, Indian Institute of Technology Delhi (IITD), New Delhi 110016, India;2. Department of Chemistry, Panjab University, Chandigarh, India;3. Inorganic and Theoretical Chemistry Section, CSTD, CSIR–National Institute for Interdisciplinary Sciences and Technology (NIIST), Thiruvananthapuram 695019, India

Abstract:	The kinetics of the electrochemical reduction of molecular nitrogen at gold micro electrodes on yttria stabilized zirconia (YSZ) solid oxide electrolyte is studied by steady state polarization measurements. From the η / lg i plot for both cathodic and anodic polarization the apparent transfer coefficients α_a and α_c are evaluated. The sum of α_a + α_c exceeds unity and thus a multistep electron transfer process is suggested. The concept of the stoichiometric number is applied to the electrode reaction N₂ + 6e⁻ = 2N³⁻ supposing that the overall process involves at least two intermediate species. On the basis of the evaluation of the experimental results the reaction N₂⁻ + e⁻ ⇌ N₂²⁻ is suggested as the rate determining reaction step for the cathodic nitrogen reduction and nitride formation.

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