Pavlo Makushko scite author profile

Artificial magnetoception is a new and yet to be explored path for humans to interact with the surroundings. This technology is enabled by thin film magnetic field sensors embedded in a soft and flexible format to constitute magnetosensitive electronic skins (e-skins). Being limited by the sensitivity to in-plane magnetic fields, magnetosensitive e-skins are restricted to basic proximity and angle sensing and are not used as switches or logic elements of interactive wearable electronics. Here, a novel magnetoreceptive platform for on-skin touchless interactive electronics based on flexible spin valve switches with sensitivity to out-of-plane magnetic fields is demonstrated. The technology relies on all-metal Co/Pd-based spin valves with a synthetic antiferromagnet possessing perpendicular magnetic anisotropy. The flexible magnetoreceptors act as logic elements, namely momentary and permanent (latching) switches. The switches maintain their performance even upon bending to a radius of less than 3.5 mm and withstand repetitive bending for hundreds of cycles. Here, flexible switches are integrated in on-skin interactive electronics and their performance as touchless human-machine interfaces is demonstrated, which are intuitive to use, energy efficient, and insensitive to external magnetic disturbances. This technology offers qualitatively new functionalities for electronic skins and paves the way towards full-fledged on-skin touchless interactive electronics.

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Flexomagnetism and vertically graded Néel temperature of antiferromagnetic Cr2O3 thin films

Makushko

Kosub

Pylypovskyi

et al. 2022

Nat Commun

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Antiferromagnetic insulators are a prospective materials platform for magnonics, spin superfluidity, THz spintronics, and non-volatile data storage. A magnetomechanical coupling in antiferromagnets offers vast advantages in the control and manipulation of the primary order parameter yet remains largely unexplored. Here, we discover a new member in the family of flexoeffects in thin films of Cr2O3. We demonstrate that a gradient of mechanical strain can impact the magnetic phase transition resulting in the distribution of the Néel temperature along the thickness of a 50-nm-thick film. The inhomogeneous reduction of the antiferromagnetic order parameter induces a flexomagnetic coefficient of about 15 μB nm−2. The antiferromagnetic ordering in the inhomogeneously strained films can persist up to 100 °C, rendering Cr2O3 relevant for industrial electronics applications. Strain gradient in Cr2O3 thin films enables fundamental research on magnetomechanics and thermodynamics of antiferromagnetic solitons, spin waves and artificial spin ice systems in magnetic materials with continuously graded parameters.

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Defect Nanostructure and its Impact on Magnetism of α‐Cr₂O₃ Thin Films

Veremchuk

Liedke

Makushko

et al. 2022

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Homogenization and short-range chemical ordering of Co–Pt alloys driven by the grain boundary migration mechanism

Pedan

Makushko

Dubikovskyi

et al. 2022

J. Phys. D: Appl. Phys.

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Binary magnetic alloys like Co-Pt are relevant for applications as components of magnetic exchange coupled composites. Numerous approaches exist to tune the coercive field of Co-Pt alloys primarily relying on high temperature processing aiming to realize chemically long-range ordered phases. The peculiarity of Co-Pt is that large coercive field and magnetic anisotropy can be achieved even in chemically disordered alloys relying on short-range order. Here, we study alloying of Co-Pt from bilayers of Pt(14 nm)/Co(13 nm) at temperatures up to 550°С, where bulk diffusion processes are suppressed and the dominant diffusion mechanism is grain boundary migration. We demonstrate that grain boundary diffusion mechanism can lead to the realization of a homogeneous yet chemically disordered Co56Pt44 alloy at temperatures of 500°С and higher. A pronounced increase of the coercive field for samples processed at temperatures higher than 400°С is attributed to short-range ordering. With this work, we pinpoint the grain boundary diffusion as the mechanism responsible not only for the homogenization of binary alloy films but also as a driving force for the realization of short-range order in Co-Pt. Our results motivate further research on grain boundary diffusion as a mechanism to realize chemically long-range ordered phases in Co-Pt alloys.

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Pavlo Makushko

Flexible Magnetoreceptor with Tunable Intrinsic Logic for On‐Skin Touchless Human‐Machine Interfaces

Flexomagnetism and vertically graded Néel temperature of antiferromagnetic Cr2O3 thin films

Defect Nanostructure and its Impact on Magnetism of α‐Cr₂O₃ Thin Films

Homogenization and short-range chemical ordering of Co–Pt alloys driven by the grain boundary migration mechanism

Contact Info

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About

Pavlo Makushko

Flexible Magnetoreceptor with Tunable Intrinsic Logic for On‐Skin Touchless Human‐Machine Interfaces

Flexomagnetism and vertically graded Néel temperature of antiferromagnetic Cr2O3 thin films

Defect Nanostructure and its Impact on Magnetism of α‐Cr2O3 Thin Films

Homogenization and short-range chemical ordering of Co–Pt alloys driven by the grain boundary migration mechanism

Contact Info

Product

Resources

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Defect Nanostructure and its Impact on Magnetism of α‐Cr₂O₃ Thin Films