This work is licensed under a Creative Commons
Attribution-NonCommercial-NoDerivs 3.0 Unported License.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.This work was supported by project MAT2012-38318-C03-02. F.N. thanks the MICINN for a JdC fellowship. N.V. thanks the Spanish government for her Ph.D. Fellowship support.Peer Reviewe
