Microwave-assisted flow synthesis of multicore iron oxide nanoparticles
Panariello, L. ; Besenhard, M.O. ; Damilos, S. ; Sergides, A. ; Sebastian, V. (Universidad de Zaragoza) ; Irusta, S. (Universidad de Zaragoza) ; Tang, J. ; Thanh, Nguyen Thi Kim ; Gavriilidis, A.
Resumen: Coprecipitation is by far the most common synthesis method for iron oxide nanoparticles (IONPs). However, reproducibility and scalability represent a major challenge. Therefore, innovative processes for scalable production of IONPs are highly sought after. Here, we explored the combination of microwave heating with a flow reactor producing IONPs through coprecipitation. The synthesis was initially studied in a well-characterised microwave-heated flow system, enabling the synthesis of multicore IONPs, with control over both the single core size and the multicore hydrodynamic diameter. The effect of residence time and microwave power was investigated, enabling the synthesis of multicore nanostructures with hydrodynamic diameter between ∼35 and 70 nm, with single core size of 3–5 nm. Compared to particles produced under conventional heating, similar single core sizes were observed, though with smaller hydrodynamic diameters. The process comprised of the initial IONP coprecipitation followed by the addition of the stabiliser (citric acid and dextran). The ability of precisely controlling the stabiliser addition time (distinctive of flow reactors), contributed to the synthesis reproducibility. Finally, scale-up by increasing the reactor length and using a different microwave cavity was demonstrated, producing particles of similar structure as those from the small scale system, with a throughput of 3.3 g/h.
Idioma: Inglés
DOI: 10.1016/j.cep.2022.109198
Año: 2022
Publicado en: CHEMICAL ENGINEERING AND PROCESSING 182 (2022), 109198 [8 p.]
ISSN: 0255-2701
Factor impacto JCR: 4.3 (2022)
Categ. JCR: ENGINEERING, CHEMICAL rank: 45 / 141 = 0.319 (2022) - Q2 - T1
Categ. JCR: ENERGY & FUELS rank: 64 / 119 = 0.538 (2022) - Q3 - T2
Factor impacto CITESCORE: 6.7 - Engineering (Q1) - Chemistry (Q1) - Chemical Engineering (Q2) - Energy (Q2)
Factor impacto SCIMAGO: 0.744 - Industrial and Manufacturing Engineering (Q1) - Chemistry (miscellaneous) (Q1) - Chemical Engineering (miscellaneous) (Q1) - Process Chemistry and Technology (Q2) - Energy Engineering and Power Technology (Q2)
Financiación: info:eu-repo/grantAgreement/EC/H2020/721290/EU/European Training Network for Continuous Sonication and Microwave Reactors/COSMIC
Tipo y forma: Article (Published version)
Área (Departamento): Área Ingeniería Química (Dpto. Ing.Quím.Tecnol.Med.Amb.)
Área (Departamento): Área Tecnologi. Medio Ambiente (Dpto. Ing.Quím.Tecnol.Med.Amb.)
Exportado de SIDERAL (2024-03-18-14:54:02)
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Idioma: Inglés
DOI: 10.1016/j.cep.2022.109198
Año: 2022
Publicado en: CHEMICAL ENGINEERING AND PROCESSING 182 (2022), 109198 [8 p.]
ISSN: 0255-2701
Factor impacto JCR: 4.3 (2022)
Categ. JCR: ENGINEERING, CHEMICAL rank: 45 / 141 = 0.319 (2022) - Q2 - T1
Categ. JCR: ENERGY & FUELS rank: 64 / 119 = 0.538 (2022) - Q3 - T2
Factor impacto CITESCORE: 6.7 - Engineering (Q1) - Chemistry (Q1) - Chemical Engineering (Q2) - Energy (Q2)
Factor impacto SCIMAGO: 0.744 - Industrial and Manufacturing Engineering (Q1) - Chemistry (miscellaneous) (Q1) - Chemical Engineering (miscellaneous) (Q1) - Process Chemistry and Technology (Q2) - Energy Engineering and Power Technology (Q2)
Financiación: info:eu-repo/grantAgreement/EC/H2020/721290/EU/European Training Network for Continuous Sonication and Microwave Reactors/COSMIC
Tipo y forma: Article (Published version)
Área (Departamento): Área Ingeniería Química (Dpto. Ing.Quím.Tecnol.Med.Amb.)
Área (Departamento): Área Tecnologi. Medio Ambiente (Dpto. Ing.Quím.Tecnol.Med.Amb.)
Exportado de SIDERAL (2024-03-18-14:54:02)
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Este artículo se encuentra en las siguientes colecciones:
articulos > articulos-por-area > tecnologias_del_medio_ambiente
articulos > articulos-por-area > ingenieria_quimica
Notice créée le 2022-12-13, modifiée le 2024-03-19