Green Electrochemical Upcycling of PET Waste via Bimetallic Catalyst-Driven Ethylene Glycol Selective Oxidation to Formate
Puntos clave
This research aims to develop an effective electrocatalyst for converting PET waste into valuable chemicals, focusing on formate production.
Utilized a Zn and Cu co-doped spinel oxide electrocatalyst (CuO/ZnCuCo2O4)
Conducted electrochemical oxidation reactions
Assessed the efficiency of the catalyst in converting PET waste into ethylene glycol and formate.
Successfully demonstrated the selective oxidation of ethylene glycol to formate
Achieved high catalytic efficiency and selectivity for the electrocatalytic process
Showed significant potential for sustainable management of plastic waste.
Resumen
The rapid accumulation of plastic waste has created an urgent need for efficient and sustainable upcycling strategies. Herein, we report a Zn and Cu co-doped spinel oxide electrocatalyst (CuO/ZnCuCo2O4) for...
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Green Electrochemical Upcycling of PET Waste via Bimetallic Catalyst-Driven Ethylene Glycol Selective Oxidation to Formate | Synapse