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Article Abstract
Electrochemical reforming presents a sustainable route for the conversion of nitrate (NO ) and polyethylene terephthalate (PET) into value-added chemicals, such as ammonia (NH) and formic acid (HCOOH). However, its widespread application has been constrained by low selectivity due to the complexity of reduction processes and thus energy scaling limitations. In this study, the atomically dispersed Ru sites in CoO synergistically interact with Co centers, facilitating the adsorption and activation of hydroxyl radicals (OH) and ethylene glycol (EG), resulting in a remarkable HCOOH selectivity of 99% and a yield rate of 11.2 mmol h cm surpassing that of pristine CoO (55% and 3.8 mmol h cm). Furthermore, when applied as a bifunctional cathode catalyst, Ru-CoO achieves a remarkable Faradaic efficiency (FE) of 98.5% for NH production (3.54 mmol h cm) at -0.3 V versus RHE. Additionally, we developed a prototype device powered by a commercial silicon photovoltaic cell, enabling on-site solar-driven production of formate and NH through enzyme-catalyzed PET and NO conversion. This study offers a viable approach for waste valorization and green chemical production, paving the way for sustainable energy applications.
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