Robust spin crossover platforms with synchronized spin switch and polymer phase transition

Robust spin crossover platforms with synchronized spin switch and polymer phase transition

The idea of developing magnetic molecular materials into real functional electronic devices with low-cost and scalable techniques appeared with the emergence of the field several years ago. Today, even though great advances have been done with this aim, the promise of a functional device working at...

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Bibliographische Detailangaben
Hauptverfasser: Novio Vázquez, Fernando, Evangelio Castells, María Emilia, Vázquez Mera, Nuria Alexandra, Gonzalez Monje, Pablo, Bellido Vera, Elena, Mendes, S, Kehagias, Nikolaos, Ruiz-Molina, Daniel
Format: Artikel
Sprache:eng
Schlagworte:
Information storage
Magnetic properties and materials
Nanoparticles
Scanning probe microscopy
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Beschreibung
Zusammenfassung:The idea of developing magnetic molecular materials into real functional electronic devices with low-cost and scalable techniques appeared with the emergence of the field several years ago. Today, even though great advances have been done with this aim, the promise of a functional device working at the micro-/nanoscale and at room temperature has unfortunately not completely materialized yet, as their use still strongly depends on the fabrication methodology of a robust device that can be handled and integrated without compromising their functionality. Here we propose the use of polymeric matrices as a platform for the development of such robust switchable structures exhibiting reproducible results independently of the dimension-from macro to micro-/nanoscale-and morphology-from thin-films to nanoparticles and nanoimprinted motives-while allowing to induce an irreversible hysteresis, reminiscent of a non-volatile memory, by synchronization with the polymer phase transition.