Researcher ID / ORCID Code
My current scientific interest includes the preparation and characterization of artificial multifunctional magnetic (inorganic and organic) nanostructures, as well as the development of novel instrumentation. Particular attention is devoted to studies on quasi-static and dynamic magnetization reversal processes and magnetoresitive responses, including unique element-selective synchrotron radiation experiments.
My goal is to acquire a better understanding of the fundamental properties that are important in novel multifunctional magnetic-based nanostructures for applications with high technological, economic, and social impacts: from solving fundamental challenges for highly reliable efficient transport and electric applications (permanent magnets), to boosting the efficiency of spin(orbit)ronic devices for sensing and advanced information technologies, including neuromorphic computing, as well as to provide better and more effective therapeutic and diagnostic tools for novel nanotechnology-based medical applications, with great relevant in infection, oncology and neurology diseases.
1. Photoactivated Nanoscale Temperature Gradient Detection Using X-ray Absorption Spectroscopy as a Direct Nanothermometry Method. Ana Espinosa, et al.,Nano Letters 21 (1), 769-777 (2021). [URL]
2. Effective control of the magnetic anisotropy in ferromagnetic MnBi micro-islands. Melek Villanueva, et al., J. Alloys Compd. 852, 156731 (2021). [URL]
3. Intrinsic mixed Bloch-Néel character and chirality of skyrmions in asymmetric epitaxial trilayer.P. Olleros-Rodríguez, et al. ACS Appl. Mater. Interfaces 12, 22, 25419 (2020). [URL]
4. Interfacing Neurons with Nanostructured Electrodes Modulates Synaptic Circuit Features, A. Domínguez‐Bajo, et al. Adv. Biosystems, 4 9, 2000117 (2020). [URL]
5. Thermally Activated Processes for Ferromagnet Intercalation in Graphene-Heavy Metal Interfaces, Fernando Ajejas, et al. ACS Appl. Mater. Interfaces 12, 3 (2019). [URL]
6. Evidence of anomalous switching of the in-plane magnetic easy axis with temperature in Fe3O4 films, J. L. F. Cuñado, et al., Nanoscale 11 (42), 19870-19876 (2019). [URL]
7. Spontaneous exchange bias formation driven by a structural phase transition in the antiferromagnetic material A. Migliorini, et al., Nature Materials 17, 28-35 (2018). [URL]
8. Unraveling Dzyaloshinskii–Moriya interaction and chiral nature of Graphene/Cobalt interface. Fernando Ajejas, et al Nano Letters 18, 5364–5372 (2018). [URL]
9. Engineering Large Anisotropic Magnetoresistance in Half-Metallic Manganite Films at Room Temperature. Paolo Perna, et al, Adv. Funct. Mater. 27, 1700664 (2017). [URL]
10. Emergence of the Stoner-Wohlfarth astroid in thin films at dynamic regime, J. L. F. Cuñado, et al. Nature: Scientific Reports 7, 13474 (2017). [URL]
ORCID:0000-0003-0078-7280; ScopusID C-4375-2014; Google scholar
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