Ruíz Gómez, SandraFernández González, ClaudiaPérez García, Lucas2023-06-222023-06-222022-082072-666X10.3390/mi13081223https://hdl.handle.net/20.500.14352/73283© 2022 by the authors. Licensee MDPI This research was funded by the Spanish MCIN/AEI/10.13039/501100011033 under grant PID2020-117024GB-C43 and by the Comunidad de Madrid through Project NANOMAGCOST-CM P2018/NMT-4321. Sandra Ruiz-Gómez and Claudia Fernández-Gonzalez gratefully acknowledge the IEEE Magnetic Society Educational Seed Funding. Sandra Ruiz-Gómez also gratefully acknowledges the financial support of the Alexander von Humboldt foundation.Electrodeposition has appeared in the last year as a non-expensive and versatile technique for the growth of nanomaterials. We review the main characteristics of electrodeposition that make this technique very suitable for its combination with different nanofabrication tools and the possibilities that this combination offers to fabricate nanowires and more complex tridimensional nanostructures. Finally, we overview the present and future impact of electrodeposition on the fabrication of a novel generation of nanomaterials with potential impact in nanomagnetism and spintronics.engAtribución 3.0 Españajournal articlehttp://dx.doi.org/10.3390/mi13081223https://www.mdpi.com/open access538.9Anodic aluminum-oxideDomain-wall motionGiant magnetoresistanceMultilayered nanowiresPermanent-magnetsPorous aluminaFabricationArraysLithographyTemplatesElectrodepositionNanomaterialsNanowiresNanoporous templatesNanomagnetismSpintronicsFísica de materialesFísica del estado sólido2211 Física del Estado Sólido