Large Spin-Dependent Thermoelectric Effects in NiFe-based Interconnected Nanowire Networks

Large Spin-Dependent Thermoelectric Effects in NiFe-based Interconnected Nanowire Networks

NiFe alloy and NiFe/Cu multilayered nanowire (NW) networks were grown using a template-assisted electrochemical synthesis method. The NiFe alloy NW networks exhibit large thermopower, which is largely preserved in the current perpendicular-to-plane geometry of the multilayered NW structure. Giant ma...

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Veröffentlicht in:Nanoscale research letters 2020-06, Vol.15 (1), p.137-137, Article 137
Hauptverfasser: Marchal, Nicolas, da Câmara Santa Clara Gomes, Tristan, Abreu Araujo, Flavio, Piraux, Luc
Format: Artikel
Sprache:eng
Schlagworte:
3D magnetic nanowire networks
Chemistry and Materials Science
Electrochemistry
Electronic devices
Intermetallic compounds
Iron compounds
Magnetic properties
Materials Science
Materials Science, Multidisciplinary
Molecular Medicine
Nano Express
Nanochemistry
Nanoscale Science and Technology
Nanoscience & Nanotechnology
Nanotechnology
Nanotechnology and Microengineering
Nanowires
Networks
Nickel base alloys
Nickel compounds
NiFe alloys
Physical Sciences
Physics
Physics, Applied
Room temperature
Science & Technology
Science & Technology - Other Topics
Seebeck effect
Spin caloritronics
Spintronics
Technology
Thermoelectricity
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Zusammenfassung:NiFe alloy and NiFe/Cu multilayered nanowire (NW) networks were grown using a template-assisted electrochemical synthesis method. The NiFe alloy NW networks exhibit large thermopower, which is largely preserved in the current perpendicular-to-plane geometry of the multilayered NW structure. Giant magneto-thermopower (MTP) effects have been demonstrated in multilayered NiFe/Cu NWs with a value of 25% at 300 K and reaching 60% around 100 K. A large spin-dependent Seebeck coefficient of –12.3 μ V/K was obtained at room temperature. The large MTP effects demonstrate a magnetic approach to control thermoelectric properties of flexible devices based on NW networks.
ISSN:1931-7573
1556-276X
1556-276X
DOI:10.1186/s11671-020-03343-8