Abstract
Magnetoplasmonics nanoparticles encompass in a single nano-entity all the rich science and promising applications of the plasmonics and magnetic nanoworlds. The difficult liaison and a certain incompatibility between plasmonics and magnetic phenomena, due to the different chemical-physical origins and supporting materials, are overcome thanks to the design and synthesis of novel nanostructures. The variations of properties, interactions and synergies of both phenomena and materials demonstrate how rich and surprising the matter is at nanoscale and the promising applications. In fact, we show how not only light and magnetism can interplay but also other phenomena like forces, heat, electric field and chemical interactions, between others, can show synergism. Magnetoplasmonic systems are excellent benchmark materials to develop and investigate multi-responsive multifunctional nanosystems that now are required in an increasing number of technologies, such as biomedicine, pharmacy, catalysis, optoelectronics and data storage.
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Acknowledgements
This work has been supported by the European Union’s Horizon 2020 Research and Innovation program under Grant agreement No. 737093 (FEMTOTERABYTE https://www.physics.gu.se/femtoterabyte) and by the University of Pisa through project PRA_2017_25.
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de Julián Fernández, C., Pineider, F. (2021). Magneto-Plasmonic Nanoparticles. In: Peddis, D., Laureti, S., Fiorani, D. (eds) New Trends in Nanoparticle Magnetism. Springer Series in Materials Science, vol 308. Springer, Cham. https://doi.org/10.1007/978-3-030-60473-8_5
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