2016
DOI: 10.1063/1.4941311
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A review of high magnetic moment thin films for microscale and nanotechnology applications

Abstract: The creation of large magnetic fields is a necessary component in many technologies, ranging from magnetic resonance imaging, electric motors and generators, and magnetic hard disk drives in information storage. This is typically done by inserting a ferromagnetic pole piece with a large magnetisation density M S in a solenoid. In addition to large M S , it is usually required or desired that the ferromagnet is magnetically soft and has a Curie temperature well above the operating temperature of the device. A v… Show more

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Cited by 138 publications
(53 citation statements)
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References 428 publications
(306 reference statements)
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“…We propose that FeOH ads + is oxidized by oneelectron transfer reaction at a the potential of peak (a) to the products Fe(OH) 2 + and H react. + (Eq.…”
Section: Resultsmentioning
confidence: 99%
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“…We propose that FeOH ads + is oxidized by oneelectron transfer reaction at a the potential of peak (a) to the products Fe(OH) 2 + and H react. + (Eq.…”
Section: Resultsmentioning
confidence: 99%
“…This could explain the experimental observation regarding a shift of the peak potential (c) and increase of peak current in two solutions. The formed intermediate, Fe(OH) 2 + , is reduced at the reverse peak (a ) to the product FeOH + (Eq. 5).…”
Section: Resultsmentioning
confidence: 99%
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“…The values of 2 H c in BFCT-0.1 and BFCT-0.2 at 50 or 100 K are all above 10 kOe and even some values can reach∼20 kOe, which are far higher than those in BFCT-0.3 and 0.6 (about 4 ∼ 6 kOe). To the best of our knowledge, the order of magnitude of 2 H c in 10∼150 K is even comparable with that of Fe-Co alloys 30 , cobalt ferrite nanoparticles 31 , and hole-doped La 1− x Sr x CoO 3 (∼10 kOe at 5 K) 32 .
Figure 5Low-temperatures magnetic property of BFCT- x . Hysteresis loops of ( a ) BFCT-0.1, ( b ) BFCT-0.2 and ( c ) BFCT-0.3 at different low-temperatures with measuring field between ± 40 kOe.
…”
Section: Resultsmentioning
confidence: 62%
“…Since the substrate (curved surface of amorphous silica here) affects the growth, other choices of geometries and materials such as Mn, Pd, Cr or W would be expected to lead to different magnetic properties. 28 The polycrystalline nature 23 of the samples, randomly grain formations, 10,11,18,23,25 crystal defects 11 and stress 18,25,29 likely act as barriers to achieving high magnetism by distorting the magnetization uniformity.…”
Section: Resultsmentioning
confidence: 99%