The Facile Microwave-Assisted Coprecipitation Route to Obtain Polyoxoniobate (Na7(H3O)Nb6O19·14H2O) Nanorods Modified with Copper for CO2 Photoreduction

Joelma R. C. Souza; Juliana A. Torres; Lucas S. Ribeiro; Jose B. G. Filho; Fabiana L. Santos; Nicholas Malgioglio; Luiz Fernando Gorup; Alexandre H. Pinto; André E. Nogueira

doi:10.3390/appliedchem3020020

AppliedChem (Jun 2023)

The Facile Microwave-Assisted Coprecipitation Route to Obtain Polyoxoniobate (Na7(H3O)Nb6O19·14H2O) Nanorods Modified with Copper for CO2 Photoreduction

Joelma R. C. Souza,
Juliana A. Torres,
Lucas S. Ribeiro,
Jose B. G. Filho,
Fabiana L. Santos,
Nicholas Malgioglio,
Luiz Fernando Gorup,
Alexandre H. Pinto,
André E. Nogueira

Affiliations

Joelma R. C. Souza: Department of Chemistry, Institute of Exact and Biological Sciences (ICEB), Federal University of Ouro Preto—UFOP, Ouro Preto 35400-000, Brazil
Juliana A. Torres: Embrapa Instrumentation, São Carlos 13560-970, Brazil
Lucas S. Ribeiro: Interdisciplinary Laboratory of Electrochemistry and Ceramics (LIEC), Department of Chemistry, UFSCar—Federal University of São Carlos, São Carlos 13565-905, Brazil
Jose B. G. Filho: Department of Chemistry, Institute of Exact and Biological Sciences (ICEB), Federal University of Ouro Preto—UFOP, Ouro Preto 35400-000, Brazil
Fabiana L. Santos: Department of Chemistry, Institute of Exact and Biological Sciences (ICEB), Federal University of Ouro Preto—UFOP, Ouro Preto 35400-000, Brazil
Nicholas Malgioglio: Department of Chemistry & Biochemistry, Manhattan College, 4513 Manhattan College Parkway, Riverdale, NY 10471, USA
Luiz Fernando Gorup: Interdisciplinary Laboratory of Electrochemistry and Ceramics (LIEC), Department of Chemistry, UFSCar—Federal University of São Carlos, São Carlos 13565-905, Brazil
Alexandre H. Pinto: Department of Chemistry & Biochemistry, Manhattan College, 4513 Manhattan College Parkway, Riverdale, NY 10471, USA
André E. Nogueira: Department of Chemistry, Institute of Exact and Biological Sciences (ICEB), Federal University of Ouro Preto—UFOP, Ouro Preto 35400-000, Brazil

DOI: https://doi.org/10.3390/appliedchem3020020
Journal volume & issue: Vol. 3, no. 2
pp. 320 – 333

Abstract

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The CO2 reduction by solar means has been discussed as an alternative to emission abatement, a fundamental topic for sustainable, carbon-free production in the future. However, the choice of efficient systems, starting with the catalysts, is still a critical issue, especially due to the poor activity of available options. Polyoxometalates have been extensively studied as promising photocatalysts due to their semiconducting properties. Nevertheless, the synthetic conditions of polyoxoniobate are stringent due to the low reaction activity of Nb species, the lack of soluble precursors, and the narrow pH range. Unlike the literature, in the present study, we report a simple polyoxoniobate synthesis method. This synthesis method has some remarkable features, such as low processing time and temperature and good activity and selectivity in the CO2 photoreduction process. The results revealed an outstanding efficiency for the CO2 reduction reaction with a high selectivity of CO2 to CO conversion (92.5%). Furthermore, C2 compounds (e.g., acetate) were produced in the liquid phase of the reaction system. Our findings are significant for indicating the potential of polyoxoniobate for CO2 photoreduction, which opens a way to control competitive reactions with synthesis, leading to higher selectivity.

Published in AppliedChem

ISSN: 2673-9623 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Science: Chemistry: Analytical chemistry; Science: Chemistry: General. Including alchemy
Website: https://www.mdpi.com/journal/appliedchem

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