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Synthesis and applications of surface-modified magnetic nanoparticles: progress and future prospects

Abstract: The growing use of magnetic nanoparticles (MNPs) demands cost-effective methods for their synthesis that allow proper control of particle size and size distribution. The unique properties of MNPs include high specific surface area, ease of functionalization, chemical stability and superparamagnetic behavior, with applications in catalysis, data and energy storage, environmental remediation and biomedicine. This review highlights breakthroughs in the use of MNPs since their initial introduction in biomedicine to the latest challenging applications; special attention is paid to the importance of proper coating and functionalization of the particle surface, which dictates the specific properties for each application. Starting from the first report following LaMer's theory in 1950, this review discusses and analyzes methods of synthesizing MNPs, with an emphasis on functionality and applications. However, several hurdles, such as the design of reactors with suitable geometries, appropriate control of operating conditions and, in particular, reproducibility and scalability, continue to prevent many applications from reaching the market. The most recent strategy, the use of microfluidics to achieve continuous and controlled synthesis of MNPs, is therefore thoroughly analyzed. This review is the first to survey continuous microfluidic coating or functionalization of particles, including challenging properties and applications.

 Authorship: García-Merino B., Bringas E., Ortiz I.,

 Fuente: Reviews in Chemical Engineering, 2022, 38(7), 821-842

 Publisher: Walter de Gruyter

 Publication date: 26/10/2022

 No. of pages: 22

 Publication type: Article

 DOI: 10.1515/revce-2020-0072

 ISSN: 0167-8299,2191-0235

 Spanish project: RTI2018-093310-B-I00

 Publication Url: https://doi.org/10.1515/revce-2020-0072

Authorship

BELEN GARCIA MERINO