1997
DOI: 10.1088/0957-0233/8/1/003
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Thick-film magnetoresistors and related sensors

Abstract: This paper deals with ferromagnetic thick-film materials and with sensors relying on the resistance change due to an external magnetic field, usually in the range from to . The research for the development of thick-film magnetoresistors (TF-MRs) is briefly summarized from Ni-based air-fireable pastes to -based films fireable in atmosphere. The different materials are compared, regarding their magnetoresistive performances (mainly in terms of magnetoresistive anisotropy and temperature sensitivity). Some appl… Show more

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Cited by 9 publications
(2 citation statements)
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“…21 Aside from the conductivity, Ni is also ferromagnetic at room temperature 22,23 and cannot be replaced by the previously named elements. There is a deep interest in using Ni for the fabrication of temperature detectors, ultrasonic transducers, 24 multilayer ceramic capacitors, 25 optical and plasmonic antennas, 26 interconnectors, 19 magnetic sensors, 27 and batteries. 28 Wetting properties and surface roughness of substrates, suitable ink rheology characteristics, and proper curing are considered to play an important role in the electrical performance of functional ink films.…”
Section: Introductionmentioning
confidence: 99%
See 1 more Smart Citation
“…21 Aside from the conductivity, Ni is also ferromagnetic at room temperature 22,23 and cannot be replaced by the previously named elements. There is a deep interest in using Ni for the fabrication of temperature detectors, ultrasonic transducers, 24 multilayer ceramic capacitors, 25 optical and plasmonic antennas, 26 interconnectors, 19 magnetic sensors, 27 and batteries. 28 Wetting properties and surface roughness of substrates, suitable ink rheology characteristics, and proper curing are considered to play an important role in the electrical performance of functional ink films.…”
Section: Introductionmentioning
confidence: 99%
“…Aside from the conductivity, Ni is also ferromagnetic at room temperature , and cannot be replaced by the previously named elements. There is a deep interest in using Ni for the fabrication of temperature detectors, ultrasonic transducers, multilayer ceramic capacitors, optical and plasmonic antennas, interconnectors, magnetic sensors, and batteries…”
Section: Introductionmentioning
confidence: 99%