Magnetic Properties of Monodispersed Ni/NiO Core−Shell Nanoparticles

Seto, Takafumi; Akinaga, H.; Takano, Fumiyoshi; Koga, Kenji; Orii, Takaaki; Hirasawa, Makoto

doi:10.1021/jp052084+

Cited by 103 publications

(54 citation statements)

References 16 publications

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“…A Ni/NiO core shell structure was successfully generated by the oxidation of Ni nanoparticles. Seto et al (2004Seto et al ( , 2005 investigated the magnetic properties of Ni/NiO nanoparticles generated by this method using a superconducting quantum interference device (SQUID) magnetometer at room temperature. Ferromagnetism was observed with a film comprising nickel particles larger Another approach for overcoming the superparamagnetic limit is to synthesize highly anisotropic magnetic alloy nanoparticles such as fct FePt and CoPt.…”

Section: Metal and Oxide Nanoparticlesmentioning

confidence: 99%

Synthesis of Nanoparticles by Laser Ablation: A Review

Kim

Osone

Kim

et al. 2017

KONA

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275

110

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Laser ablation is a method for fabricating various kinds of nanoparticles including semiconductor quantum dots, carbon nanotubes, nanowires, and core shell nanoparticles. In this method, nanoparticles are generated by nucleation and growth of laser-vaporized species in a background gas. The extremely rapid quenching of vapor is advantageous in producing high purity nanoparticles in the quantum size range (< 10 nm). In this review, the formation mechanism of nanoparticles by laser ablation is summarized. Recent progress on the control of nanoparticle size and the challenges for functional nanoparticle synthesis by advanced laser ablation technology are then discussed.

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Section: Metal and Oxide Nanoparticlesmentioning

confidence: 99%

Synthesis of Nanoparticles by Laser Ablation: A Review

Kim

Osone

Kim

et al. 2017

KONA

Self Cite

275

110

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“…[16,17] Exchange biasing has important technological applications, such as in giant-magnetoresistance-based spin valves that are used in hard-drive read heads and other spintronics applications. [18,19] In nanometer-scale systems, the key factor in this magnetic interaction would be controlling the volume, shape, crystallinity, and structure of both the FM and AFM materials. [20][21][22][23][24][25][26][27] Ni/NiO nanowires therefore offer an attractive approach to control exchange coupling, anisotropic morphology, and spin-glasslike behaviour.…”

Section: Full Papermentioning

confidence: 99%

Magnetic Properties of Ni/NiO Nanowires Deposited onto CNT/Pt Nanocomposites

Salgueiriño

Correa‐Duarte

Bañobre‐López

et al. 2008

Adv Funct Materials

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Several nanometer‐scale technological applications rely on the promising scenario of highly anisotropic magnetic materials. Bearing this in mind, we have studied the structure, magnetic properties, and interfacial exchange anisotropy effects of unique wires of Ni/NiO synthesized using carbon nanotubes as substrates. Structural analyses of these nanocomposites in correlation with magnetic measurements show that the crystalline NiO outer shells cause an enhanced exchange bias, providing an extra source of anisotropy that leads to their magnetization stability. These Ni/NiO nanowires, with a spin‐glass‐like behavior and with their magnetic moments in a blocked state over a wide temperature range that includes room temperature, should therefore inspire further study concerning the applicability of anisotropic structures.

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“…However, nanostructural metal oxide semiconductors possess a high surface area, nontoxicity, good biocompatibility, catalytic activity and chemical stability. Among the metal oxide semiconductors, nickel oxide (NiO), a p-type semiconductor with a wide band gap of 4.0 eV at 300 K, has been investigated for various applications such as solar cells, electrochemistry nanosensors [20,21]. Electrochemical nanosensors based voltammetric techniques have become extremely useful for the monitoring of pesticides [22,23].…”

Section: Introductionmentioning

confidence: 99%