Surface Morphology and Magnetic Properties of Isolated Cylindrical Nickel Nanowires

Sultan, Musaab Salman

doi:10.11648/j.ajn.20170303.11

Cited by 4 publications

(5 citation statements)

References 36 publications

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“…Now, to gain a fuller understanding of the magnetic properties of such films, the coercivity acquired here was compared with other results reported in the literature discussing isolated Ni and NiFe nanowires prepared under the same conditions and measured also by MOKE magnetometry (Sultan, et al, 2012;Sultan, 2017a;2017b;2018), a large difference was noticed. This large difference is quite acceptable since the crystallites within such ferromagnetic thin films have no preferred orientations and have no shape anisotropy dominating the behavior as in the nanowires.…”

Section: B Moke Measurements -Magnetic Propertiesmentioning

confidence: 82%

“…Once the electrodeposition was finished, the chips were washed thoroughly in distilled water, followed by IPA, and blown with argon gas. Further, information on the deposition procedure using this technique can be found in (Das, et al, 2008;Possin, 1970;Sultan, et al, 2012;Sultan, 2017a;2017b;2018). Now, to analyze the elemental composition of these samples, energy-dispersive X-ray spectroscopy (EDS) analysis on the Hitachi-SU 70 was used.…”

Section: Methodsmentioning

confidence: 99%

“…The obtained hysteresis loops were the reflected Kerr light against the externally applied magnetic field. More theoretical (Brundle, Evans and Wilson, 1992;Cullity and Graham, 2009;Jiles, 1998) and experimental (Eastwood, 2009;Lupu, Lostun and Chiriac, 2010;Sultan, et al, 2012;Sultan, 2017a;2017b;2018) details on the MOKE setup and its measurements can be found elsewhere.…”

Section: Methodsmentioning

confidence: 99%

“…The magnetic properties of such ferromagnetic thin films were also investigated using a range of characterization systems, which include superconducting quantum interference device, vibrating sample magnetometry, torque http://dx.doi.org/10.14500/aro.11211 magnetometry, and alternating gradient magnetometry, as well as magnetic force microscopy. On the other hand, the Magneto-Optical Kerr Effect (MOKE) setup has also been used to demonstrate the magnetization behavior of a range of magnetic thin films (Azzawi, et al, 2016;Ganguly, et al, 2015;Michelini, et al, 2002), nanodots (Heyderman, et al, 2004), nanowires (Allwood, et al, 2003;Bryan, Atkinson and Allwood, 2006;Maruyama, et al, 1997), and more complex geometric shapes of nanostructures (Chen, et al, 2010;Das, et al, 2016;Eider, et al, 2016;Ester, et al, 2015;Lupu, Lostun and Chiriac, 2010;Philip, et al, 2016;Sharma, et al, 2009;Sultan, et al, 2012;Sultan, 2017aSultan, , 2017b2018;Vega, et al, 2012). However, in this setup, the reflected light is proportional to the amount of magnetization within the surface of the film, which depends on the polarization rotation of a polarized laser light following its reflection from a ferromagnetic sample to the skin depth (Allwood, et al, 2003).…”

Section: Introductionmentioning

confidence: 99%

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Magnetic and Electrical Properties of Electrodeposited Nickel Films

Sultan

2023

ARO

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Magnetic and electrical properties of nickel (Ni) thin films produced by the electrodeposition technique under a range of growth times (30, 40, and 60 s) are investigated thoroughly using Magneto-Optical Kerr Effect (MOKE) magnetometry and Magneto-Resistance setup, respectively. To deeply understand these properties, the elemental composition, surface morphology, and bulk crystalline structure are analyzed using energy dispersive X-ray spectroscopy (EDS) with high-resolution scanning electronmicroscopy (HRSEM), grazing incidence X-ra y reflectivity(GIXR), and X-ray diffraction measurements, respectively. EDSanalysis confirms that these samples are free from impurities andcontamination. An increase in coercive fields (~67 Oe) with widedistribution (58–85 Oe) across the film area and a slight variationin the shape of the loops are noticed by decreasing the film growthtime (30 s). This is attributed to the deviations in the film surfacemorphology (defects), as confirmed by HRSEM and GIXRmeasurements. The angular dependence of the coercivity is nearlyconstant for each sample and most angles, indicating the similarityin the reversal behavior in such films.The sample resistance is foundto be ~20.3 Ω and ~2.8 Ω for films with growth times of 40 s and 60 s,respectively. The co ercivity of the AMR profiles and MOKE loops isconsistent with each other, indicating that the magnetization at thesurface performs similarly to that of their bulks. This article givesan indication that Ni films produced by this technique under suchconditions are soft at longer deposition times and largely isotropic,which is more preferable in some magnetic applications.

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Section: B Moke Measurements -Magnetic Propertiesmentioning

confidence: 82%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Magnetic and Electrical Properties of Electrodeposited Nickel Films

Sultan

2023

ARO

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“…Te magnetic properties of ferromagnetic nanostructures have been experimentally discovered using a wide range of characterization systems, including alternating gradient magnetometer (AGM), vibrating sample magnetometer (VSM), torque magnetometry (TM), superconducting quantum interference device (SQID), and atomic/magnetic force microscopy [17][18][19][20][21][22][23]. On the other hand, the magnetization behavior of isolated (individual) nanowires has been analyzed using micro-SQUID, electromagneto-transport measurements [30][31][32][33][34][35][36], and magnetooptical Kerr efect (MOKE) magnetometry [37][38][39][40][41][42].…”

Section: Introductionmentioning

confidence: 99%

Angular Dependence of Magnetization Behavior in Ni81Fe19 Nanowires by Micromagnetic Simulations

Sultan

2023

Journal of Nanotechnology

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Nickel (Ni)-iron (Fe) alloy in the form of Ni81Fe19 (permalloy) is a widely used material in technological soft magnetic applications. Understanding the magnetization behavior in detail in such materials is substantial from both a scientific point of view and industrial demands. Therefore, the main purpose of the present article is to discuss the angular dependence of magnetization in Ni81Fe19 nanowires by micromagnetic simulation using the object-oriented micromagnetic framework (OOMMF) platform. These investigations have been implemented on different widths/thicknesses (T) up to 150 nm with an identical stretch of 1 µm. There was a reduction in the remanent magnetization by increasing the wire angle with respect to the magnetic field applied, which displayed excellent agreement with calculations performed theoretically. This was designated for the effect of shape anisotropy on behavior. The angular dependence of the switching behavior was analyzed and compared theoretically with the classical domain wall reversal models. The magnetic reversal for wires ≤30 nm was well defined by the uniform rotation of the Stoner–Wohlfarth model, whereas for nanostructures ≥50 nm was analyzed by the nonuniform rotation of the curling model. The critical thickness for the transition between these models was theoretically calculated and found to be around 30 ± 5 nm, which is in good agreement with the other findings presented in the literature using other materials of ferromagnetic wires. The micromagnetic spin structure was obtained instantaneously before and after switching events for relatively thick (150 nm) nanostructures at different angles, suggesting that the reversal is not as simple as predicted by the domain wall reversal of nonuniform rotation of the curling model.

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Electro- and Magneto-Transport Behavior of Template-Released Isolated Ferromagnetic Nanowires

Sultan

2017

IEEE Trans. Magn.

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Surface Morphology and Magnetic Properties of Isolated Cylindrical Nickel Nanowires

Cited by 4 publications

References 36 publications

Magnetic and Electrical Properties of Electrodeposited Nickel Films

Magnetic and Electrical Properties of Electrodeposited Nickel Films

Angular Dependence of Magnetization Behavior in Ni81Fe19 Nanowires by Micromagnetic Simulations

Electro- and Magneto-Transport Behavior of Template-Released Isolated Ferromagnetic Nanowires

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