Electrodeposited Copper Nanocatalysts for CO2 Electroreduction: Effect of Electrodeposition Conditions on Catalysts’ Morphology and Selectivity

Gianluca Zanellato,Robertino Zanoni,Pietro Altimari,Francesca Pagnanelli,Pier Giorgio Schiavi,Antonio Rubino

doi:10.3390/en14165012

Gianluca Zanellato, Robertino Zanoni + Show 4 more

Open Access

https://doi.org/10.3390/en14165012

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Journal: Energies	Publication Date: Aug 15, 2021
Citations: 5	License type: CC BY 4.0

Affiliation: Sapienza University of Rome

Abstract

Catalytic electroreduction of carbon dioxide represents a promising technology both to reduce CO2 emissions and to store electrical energy from discontinuous sources. In this work, electrochemical deposition of copper on to a gas-diffusion support was tested as a scalable and versatile nanosynthesis technique for the production of catalytic electrodes for CO2 electroreduction. The effect of deposition current density and additives (DAT, DTAB, PEG) on the catalysts’ structure was evaluated. The selectivity of the synthesized catalysts towards the production of CO was evaluated by analyzing the gaseous products obtained using the catalysts as cathodes in electroreduction tests. Catalyst morphology was deeply influenced by the deposition additives. Copper nanospheres, hemispherical microaggregates of nanowires, and shapeless structures were electrodeposited in the presence of dodecyltrimethylammonium bromide (DTAB), 3,5-diamino-1,2,4-triazole (DAT) and polyethylene glycol (PEG), respectively. The effect of the deposition current density on catalyst morphology was also observed and it was found to be additive-specific. DTAB nanostructured electrodes showed the highest selectivity towards CO production, probably attributable to a higher specific surface area. EDX and XPS analysis disclosed the presence of residual DAT and DTAB uniformly distributed onto the catalysts structure. No significant effects of electrodeposition current density and Cu(I)/Cu(II) ratio on the selectivity towards CO were found. In particular, DTAB and DAT electrodes yielded comparable selectivity, although they were characterized by the highest and lowest Cu(I)/Cu(II) ratio, respectively.

Highlights

The anthropic emission of carbon dioxide is considered an issue of fundamental importance
Their application as energy sources does not fulfill the global demand for organic bulk chemicals, whose origin is completely linked to petroleum, natural gas and coal
Deposition potential slowly increases in the final part of the deposition; this may be explained by an increase in the electroactive surface area of the electrode

Summary

Introduction

The anthropic emission of carbon dioxide is considered an issue of fundamental importance. Nowadays, both in scientific research and generalist media the decarbonization of industrial processes is an extensively treated topic. In order to control and modify this trend, renewable energy sources are being taken into account but, due their intermittent production regime, large-scale energy storage systems are required. Their application as energy sources does not fulfill the global demand for organic bulk chemicals, whose origin is completely linked to petroleum, natural gas and coal

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