Yulia Tobolovskaya scite author profile

The electrochemical urea oxidation reaction (UOR) to N 2 represents an efficient route to simultaneous nitrogen removal from N-enriched waste and production of renewable fuels at the cathode. However, the overoxidation of urea to NO x À usually dominates over its oxidation to N 2 at Ni(OH) 2 -based anodes. Furthermore, detailed reaction mechanisms of UOR remain unclear, hindering the rational catalyst design. We found that UOR to NO x À on Ni(OH) 2 is accompanied by the formation of near stoichiometric amount of cyanate (NCO À ), which enabled the elucidation of UOR mechanisms. Based on our experimental and computational findings, we show that the formation of NO x À and N 2 follows two distinct vacancy-dependent pathways. We also demonstrate that the reaction selectivity can be steered towards N 2 formation by altering the composition of the catalyst, e.g., doping the catalyst with copper (Ni 0.8 Cu 0.2 (OH) 2 ) increases the faradaic efficiency of N 2 from 30 % to 55 %.

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Nickel‐Catalyzed Urea Electrolysis: From Nitrite and Cyanate as Major Products to Nitrogen Evolution

Tatarchuk

Medvedev

et al. 2022

Angewandte Chemie

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The electrochemical urea oxidation reaction (UOR) to N2 represents an efficient route to simultaneous nitrogen removal from N‐enriched waste and production of renewable fuels at the cathode. However, the overoxidation of urea to NOx− usually dominates over its oxidation to N2 at Ni(OH)2‐based anodes. Furthermore, detailed reaction mechanisms of UOR remain unclear, hindering the rational catalyst design. We found that UOR to NOx− on Ni(OH)2 is accompanied by the formation of near stoichiometric amount of cyanate (NCO−), which enabled the elucidation of UOR mechanisms. Based on our experimental and computational findings, we show that the formation of NOx− and N2 follows two distinct vacancy‐dependent pathways. We also demonstrate that the reaction selectivity can be steered towards N2 formation by altering the composition of the catalyst, e.g., doping the catalyst with copper (Ni0.8Cu0.2(OH)2) increases the faradaic efficiency of N2 from 30 % to 55 %.

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The bovine carbonic anhydrase promoted dehydration of bicarbonate to CO2 for the electrochemical production of syngas

Tobolovskaya¹,

Medvedev²,

Medvedeva³

et al. 2023

Journal of CO2 Utilization

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