Publication | Closed Access
Towards Flexible Magnetoelectronics: Buffer‐Enhanced and Mechanically Tunable GMR of Co/Cu Multilayers on Plastic Substrates
134
Citations
30
References
2008
Year
Magnetic PropertiesEngineeringMechanical EngineeringPolymer-based MagnetFlexible SubstratesGmr EffectMagnetic MaterialsMagnetismChemical EngineeringMechanically Tunable GmrPrinted ElectronicsMagnetic Thin FilmsElectronic PackagingNanolithography MethodThin Film ProcessingMaterials ScienceNanotechnologyMagnetic MaterialTowards Flexible MagnetoelectronicsElectronic MaterialsFlexible ElectronicsMicrofabricationSurface ScienceApplied PhysicsGmr ValuesCo/cu MultilayersMagnetic DeviceFunctional Materials
Strongly enhanced GMR on flexible substrates is reported for (Co_1 nm/Cu_1 nm)N multilayers deposited on plastics (P) by introducing a photoresist (PR) buffer layer. GMR values of Co/Cu multilayers on buffered flexible substrates are even larger than those on thermally oxidized Si (Si) substrates due to an increased antiferromagnetic coupling fraction. The GMR effect can be easily tuned mechanically by substrate stretching.
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