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Cu<sub>2</sub>O–Cu@Titanium Surface with Synergistic Performance for Nitrate-to-Ammonia Electrochemical Reduction

Marcelo Chavez, Martí Biset‐Peiró, Sebastián Murcia‐López, J.R. Morante

2023ACS Sustainable Chemistry & Engineering43 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Transition metals, such as titanium (Ti) and copper (Cu) along with their respective metal oxides (TiO 2, Cu 2 O, and CuO), have been widely studied as electrocatalysts for nitrate electrochemical reduction with important outcomes in the fields of denitrification and ammonia generation. Based on this, this work conducted an evaluation of a composite electrode that integrates materials with different intrinsic activities (i.e., Cu and Cu 2 O for higher activity for nitrate conversion; Ti for higher faradaic efficiency to ammonia) looking for potential synergistic effects in the direction of ammonia generation. The specific performance of single-metal and composite electrodes has shown a strong dependence on pH and nitrate concentration conditions. Faradaic efficiency to ammonia of 92% and productivities of 0.28 mmol NH 3 ·cm –2 ·h –1 at 0.5 V vs reversible hydrogen electrode (RHE) values are achieved, demonstrating the implicit potential of this approach in comparison to direct N 2 RR with values in the order of μmol NH 3 ·h –1 ·cm –2 . Finally, the electrochemical rate constants ( k ) for Ti, Cu, and Cu 2 O-Cu/Ti disk electrodes were determined by the Koutecky–Levich analysis with a rotating disk electrode (RDE) in 3.02 × 10 –6, 3.88 × 10 –4, and 4.77 × 10 –4 cm·s –1 demonstrating an apparent synergistic effect for selective NiRR to ammonia with a Cu 2 O-Cu/Ti electrode.

Topics & Concepts

AmmoniaElectrochemistryNitrateInorganic chemistryTitaniumCopperReduction (mathematics)ChemistryMaterials scienceNuclear chemistryMetallurgyElectrodeOrganic chemistryPhysical chemistryMathematicsGeometryAmmonia Synthesis and Nitrogen ReductionCaching and Content DeliveryAdvanced Photocatalysis Techniques
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