Carbon nanosheet-carbon nanocage encapsulated Cu composite from chemical vapor deposition of real-world plastic waste for tailored CO2 conversion to various products

Carbon nanosheet supported Cu (Cu/CNS) is an exemplary electrocatalyst for electrochemical CO2 reduction reaction (CO2RR). The Cu/CNS electrocatalysts however suffer from agglomeration of dispersed Cu nanoparticles and restacking of CNS causing degradation of electrocatalytic activity. Here, a facile onestep method is proposed for manufacturing tailor-made Cu/CNS (e.g., where Cu particle size is stabilized by encapsulation into carbon nanocages (CNC) fixed to a porous and conductive CNS). The electrocatalysts were prepared via catalytic chemical vapor deposition over Cu loaded CaO (Cu/CaO) catalysts from recycled real-world plastic waste. The formation of CNC could help prevent restacking of CNS with specific surface area of around 20 0-40 0 m(2) g(-1) and maintain good dispersion of Cu nanoparticles. The CO2RR performance (including selectivity and current density) of Cu/CNS was conveniently controlled by the Cu/CaO preparation methods. Compared to Cu/CaO prepared via impregnation or with ethylene glycol, Cu/CaO synthesized via urea-assisted method catalyzed formation of Cu/CNS with improved CO selectivity at lower overpotential (maximum CO Faradaic efficiency was 82.1% at-0.76 V versus reversible hydrogen electrode), higher current density, and suppressed hydrocarbon selectivity owning to the electrocatalyst highest porosity and smallest Cu nanoparticles over CNS. (C) 2021 Published by Elsevier Ltd.