Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane

High-quality and compact arrays of Ni nanowires with a high ratio (up to 700) were obtained by DC electrochemical deposition into porous anodic alumina membranes with a distance between pores equal to 105 nm. The nanowire arrays were examined using scanning electron microscopy, X-ray diffraction ana...

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Autores principales: Tishkevich, Daria, Vorobjova, Alla, Shimanovich, Dmitry, Kaniukov, Egor, Kozlovskiy, Artem, Zdorovets, Maxim, Vinnik, Denis, Turutin, Andrei, Kubasov, Ilya, Kislyuk, Alexander, Dong, Mengge, Sayyed, M. I., Zubar, Tatiana, Trukhanov, Alex
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8308109/
https://www.ncbi.nlm.nih.gov/pubmed/34361161
http://dx.doi.org/10.3390/nano11071775
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author Tishkevich, Daria
Vorobjova, Alla
Shimanovich, Dmitry
Kaniukov, Egor
Kozlovskiy, Artem
Zdorovets, Maxim
Vinnik, Denis
Turutin, Andrei
Kubasov, Ilya
Kislyuk, Alexander
Dong, Mengge
Sayyed, M. I.
Zubar, Tatiana
Trukhanov, Alex
author_facet Tishkevich, Daria
Vorobjova, Alla
Shimanovich, Dmitry
Kaniukov, Egor
Kozlovskiy, Artem
Zdorovets, Maxim
Vinnik, Denis
Turutin, Andrei
Kubasov, Ilya
Kislyuk, Alexander
Dong, Mengge
Sayyed, M. I.
Zubar, Tatiana
Trukhanov, Alex
author_sort Tishkevich, Daria
collection PubMed
description High-quality and compact arrays of Ni nanowires with a high ratio (up to 700) were obtained by DC electrochemical deposition into porous anodic alumina membranes with a distance between pores equal to 105 nm. The nanowire arrays were examined using scanning electron microscopy, X-ray diffraction analysis and vibration magnetometry at 300 K and 4.2 K. Microscopic and X-ray diffraction results showed that Ni nanowires are homogeneous, with smooth walls and mostly single-crystalline materials with a 220-oriented growth direction. The magnetic properties of the samples (coercivity and squareness) depend more on the length of the nanowires and the packing factor (the volume fraction of the nanowires in the membrane). It is shown that the dipolar interaction changes the demagnetizing field during a reversal magnetization of the Ni nanowires, and the general effective field of magnetostatic uniaxial shape anisotropy. The effect of magnetostatic interaction between ultra-long nanowires (with an aspect ratio of >500) in samples with a packing factor of ≥37% leads to a reversal magnetization state, in which a “curling”-type model of nanowire behavior is realized.
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spelling pubmed-83081092021-07-25 Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane Tishkevich, Daria Vorobjova, Alla Shimanovich, Dmitry Kaniukov, Egor Kozlovskiy, Artem Zdorovets, Maxim Vinnik, Denis Turutin, Andrei Kubasov, Ilya Kislyuk, Alexander Dong, Mengge Sayyed, M. I. Zubar, Tatiana Trukhanov, Alex Nanomaterials (Basel) Article High-quality and compact arrays of Ni nanowires with a high ratio (up to 700) were obtained by DC electrochemical deposition into porous anodic alumina membranes with a distance between pores equal to 105 nm. The nanowire arrays were examined using scanning electron microscopy, X-ray diffraction analysis and vibration magnetometry at 300 K and 4.2 K. Microscopic and X-ray diffraction results showed that Ni nanowires are homogeneous, with smooth walls and mostly single-crystalline materials with a 220-oriented growth direction. The magnetic properties of the samples (coercivity and squareness) depend more on the length of the nanowires and the packing factor (the volume fraction of the nanowires in the membrane). It is shown that the dipolar interaction changes the demagnetizing field during a reversal magnetization of the Ni nanowires, and the general effective field of magnetostatic uniaxial shape anisotropy. The effect of magnetostatic interaction between ultra-long nanowires (with an aspect ratio of >500) in samples with a packing factor of ≥37% leads to a reversal magnetization state, in which a “curling”-type model of nanowire behavior is realized. MDPI 2021-07-08 /pmc/articles/PMC8308109/ /pubmed/34361161 http://dx.doi.org/10.3390/nano11071775 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Tishkevich, Daria
Vorobjova, Alla
Shimanovich, Dmitry
Kaniukov, Egor
Kozlovskiy, Artem
Zdorovets, Maxim
Vinnik, Denis
Turutin, Andrei
Kubasov, Ilya
Kislyuk, Alexander
Dong, Mengge
Sayyed, M. I.
Zubar, Tatiana
Trukhanov, Alex
Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane
title Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane
title_full Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane
title_fullStr Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane
title_full_unstemmed Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane
title_short Magnetic Properties of the Densely Packed Ultra-Long Ni Nanowires Encapsulated in Alumina Membrane
title_sort magnetic properties of the densely packed ultra-long ni nanowires encapsulated in alumina membrane
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8308109/
https://www.ncbi.nlm.nih.gov/pubmed/34361161
http://dx.doi.org/10.3390/nano11071775
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