In article number 2101089, Gaspare Varvaro, Denys Makarov, and co-workers present skin-compliant touchless interactive devices based on spin-valves with out-of-plane sensitivity to magnetic fields and with tunable logic characteristics. This technology will pave the way towards magnetoreceptive human-machine interfaces or virtual- and augmented reality applications, which are intuitive to use, energy efficient, and insensitive to external magnetic disturbances.
Flexible Magnetoreceptors: Flexible Magnetoreceptor with Tunable Intrinsic Logic for On-Skin Touchless Human-Machine Interfaces (Adv. Funct. Mater. 25/2021)
Mariam Hassan;Christian Rinaldi;Federico Fagiani;
2021-01-01
Abstract
In article number 2101089, Gaspare Varvaro, Denys Makarov, and co-workers present skin-compliant touchless interactive devices based on spin-valves with out-of-plane sensitivity to magnetic fields and with tunable logic characteristics. This technology will pave the way towards magnetoreceptive human-machine interfaces or virtual- and augmented reality applications, which are intuitive to use, energy efficient, and insensitive to external magnetic disturbances.File in questo prodotto:
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[AdvMater_Cover_Makushko] Flexible Magnetoreceptors Flexible Magnetoreceptor with Tunable Intrinsic Logic for On-Skin Touchless Human-Machine Interfaces.pdf
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