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Investigation on the structure and performance of supported Ni nanoparticles for the hydrogenation of furfural

Chen, Xiaowei; Alijani, Shahram; Gallarati, Simone; Tessore, Francesca; Jaen, Juan Jose Delgado; Gianolio, Diego; Villa, Alberto; Arrigo, Rosa

Investigation on the structure and performance of supported Ni nanoparticles for the hydrogenation of furfural Thumbnail


Authors

Xiaowei Chen

Shahram Alijani

Simone Gallarati

Francesca Tessore

Juan Jose Delgado Jaen

Diego Gianolio

Alberto Villa



Abstract

In this study, nickel nanoparticles were successfully synthesized using two methods: the hot‐injection method and a room temperature colloidal synthesis using dioctyl tartrate as a capping agent. Each approach yielded Ni nanoparticles with unique morphological and electronic properties. The distinct characteristics of these Ni nanoparticles make them promising candidates for unravelling structure/activity relationships, a crucial aspect in developing catalysts with enhanced selectivity. Ni nanoparticles synthesized via these methods were supported on silica and activated charcoal, with variations in Ni loadings. We explored the impact of nanostructural characteristic of the Ni nanoparticles as well as support effects on the selective hydrogenation of furfural. Using temperature programmed reduction, advanced X‐ray absorption spectroscopy, and atom‐resolved electron microscopy techniques, we established comprehensive structure‐function relationships. We demonstrate that via dioctyl tartrate route, foam‐like Ni nanostructures are obtained, yielding higher selectivity towards selective hydrogenation than commercial Ni/Al2O3 and suppression of acid‐base catalysed acetalization and etherification. Furthermore, conversions similar to commercial Ni/Al2O3 are achieved using a lower Ni loading. These insights provide valuable guidance for the design of enhanced materials, contributing to the optimization of catalyst performance in selective hydrogenation processes. This research marks a significant step toward the development of more efficient and sustainable catalytic processes.

Citation

Chen, X., Alijani, S., Gallarati, S., Tessore, F., Jaen, J. J. D., Gianolio, D., …Arrigo, R. (2024). Investigation on the structure and performance of supported Ni nanoparticles for the hydrogenation of furfural. ChemCatChem, Article e202400229. https://doi.org/10.1002/cctc.202400229

Journal Article Type Article
Acceptance Date Jun 18, 2024
Online Publication Date Jun 20, 2024
Publication Date Jun 20, 2024
Deposit Date Jul 8, 2024
Publicly Available Date Jul 8, 2024
Journal ChemCatChem
Print ISSN 1867-3880
Publisher Wiley
Peer Reviewed Peer Reviewed
Article Number e202400229
DOI https://doi.org/10.1002/cctc.202400229

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