Evidence of intrinsic magnetism in capped ZnO nanoparticles

Chaboy, J.; Boada, Roberto; Piquer, Cristina; Laguna-Marco, M. A.; Garcia-Hernandez, M.; Carmona, N.; Llopis, J.; Ruiz‐González, M. Luisa; Gonzalez-Calbet, J. M.; Fernández, J.F.; García, M. A.

doi:10.1103/physrevb.82.064411

Cited by 84 publications

(72 citation statements)

References 30 publications

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“…Chaboy et al [31] thoroughly studied the XAS and XMCD spectra of ZnO capped by organic molecules through N (amina) atoms. The formation of a well-defined interface between ZnO and the capping molecule was observed.…”

Section: Capped Zno Npsmentioning

confidence: 99%

Revisiting magnetism of capped Au and ZnO nanoparticles: Surface band structure and atomic orbital with giant magnetic moment

Hernando

Crespo

García

et al. 2011

Physica Status Solidi (b)

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In this article we review the exotic magnetism of nanoparticles (NPs) formed by substances that are not magnetic in bulk as described with generality in Section 1. In particular, the intrinsic character of the magnetism observed on capped Au and ZnO NPs is analysed. X‐ray magnetic circular dichroism (XMCD) analysis has shown that the magnetic moments are intrinsic and lie in the Au and Zn atoms, respectively, as analysed in Section 2, where the general theoretical ideas are also revisited. Since impurity atoms bonded to the surface act as donor or acceptor of electrons that occupy the surface states, the anomalous magnetic response is analysed in terms of the surface band in Section 3. Finally, Section 4 summarizes our last theoretical proposal.

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Section: Capped Zno Npsmentioning

confidence: 99%

Revisiting magnetism of capped Au and ZnO nanoparticles: Surface band structure and atomic orbital with giant magnetic moment

Hernando

Crespo

García

et al. 2011

Physica Status Solidi (b)

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“…[14][15][16][17][18][19][20] In terms of mechanism, alternation of the electronic configuration, which is often a consequence of either intentional or unintentional structural/chemical inhomogeneity introduced in sample synthesis, has been proven as a viable approach to induce ferromagnetism. [21][22][23] In particular, Coey et al proposed that shallow donor electrons can form spin-split impurity bands and bound magnetic polarons. 24 However, the main challenge remains regarding how to harness the oxide nanostructures to produce an enhanced and reliable magnetism in order to become relevant to practical spintronic devices.…”

mentioning

confidence: 99%

“…Recently, engineering the ZnO surface has played important roles in modulating the spin polarization and magnetic order in several material systems including ZnO nanostructures with organic molecule-passivation. [21][22][23]25,29 In fact, Zn K-edge X-ray magnetic circular dichroism measurements revealed a ferromagnetic-like contribution from the interface formed between the ZnO nanoparticle core and the organic molecules. 23 Similarly, spontaneous magnetization and hysteresis were observed in ZnO nanowires (NWs) modified with thiol-capped Ag nanoclusters 30 and in ZnO/ZnS core-shell nanoparticles.…”

mentioning

confidence: 99%

“…It is in line with the findings by Garcia et al, where capping ZnO nanoparticles with different organic molecules was found to induce room-temperature ferromagnetic-like behaviors. [21][22][23] In general, surfaces naturally break down the periodic boundary conditions which are assumed for ideal solids with infinite dimensions; thus, they are structural imperfection by themselves. Therefore, many structural motifs related to surfaces or grain boundaries can sustain a macroscopic magnetic order, particularly in nanomaterials.…”

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confidence: 99%

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Emergent ferromagnetism in ZnO/Al₂O₃ core-shell nanowires: Towards oxide spinterfaces

et al. 2013

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“…[94][95][96] Chaboy et al studied ZnO nanoparticles capped with different molecules using XMCD spectroscopy. 95,96) Figure 10 shows the XMCD results at the Zn L 2;3 and Zn K edges. No XMCD signal was observed at the Zn L 2;3 edges (2p !…”

Section: Zno Nanoparticlesmentioning

confidence: 99%

Recent Progress of the X-ray Magnetic Circular Dichroism Technique for Element-Specific Magnetic Analysis

Nakamura

Suzuki

2013

J. Phys. Soc. Jpn.

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Recent trend of the X-ray magnetic circular dichroism (XMCD) spectroscopy-based technique and the related scientific topics at SPring-8 are reviewed. At the third-generation synchrotron radiation facility, the key developments in the XMCD technique include i) significant improvements in the accuracy and sensitivity of XMCD measurements with a quick helicity switching of circularly polarized X-rays, ii) introduction of extreme conditions (strong pulsed magnetic field and high pressures), and iii) new experimental setup using the high-brilliance X-ray source (microfocusing, reflection geometry, and high-pressure cells). These achievements have effectively extended the capability of the XMCD technique, a unique magnetic probe with an element-specificity, providing fundamental scientific insights in spintronics and magnetic recording devices, magnetic nanoparticles, and magnetism under high-magnetic field and high pressures.KEYWORDS: X-ray magnetic circular dichroism, element specific magnetic hysteresis, synchrotron radiation X-rays Historical ReviewElement-specific magnetic measurements are widely recognized as a powerful experimental technique for the study of magnetic materials and have previously been exploited mainly by Mössbauer spectroscopy. For the last 30 years, an energy-tunable and polarized X-ray source at synchrotron radiation facilities has given rather expansive possibilities of element-specific magnetic measurements using X-ray spectroscopy. Indeed, X-ray magnetic circular dichroism (XMCD) spectroscopy 1,2) has become one of the leading techniques for element-specific magnetic measurement using a resonant effect in the core-shell absorption with circularly polarized X-ray photons.The XMCD effect was first observed at the Fe K edge in the hard-X-ray region in 1987 by Schütz et al.3) In their experiment, an XMCD spectrum of pure iron was obtained by reversing the direction of magnetic fields applied to a sample, and the circularly polarized X-rays were provided by the off-orbital radiation from a bending magnet (off-plane method).3) The recorded XMCD signal was quite small, of the order of ÁI=I $ 5 Â 10 À3 . Subsequently, XMCD spectra at the L 2;3 edges of rare-earth elements [4][5][6] and at the L 2;3 edges of 5d metals in some alloys with 3d transition metals were also reported. 7) XMCD measurements over a wide energy range that is similar to the extended X-ray absorption fine structure (EXAFS), called magnetic EXAFS, in Fe and Gd 3 Fe 5 O 12 showed a capability of analyses of local magnetic structures using dichroic effects. 8,9) In the soft-X-ray region, the first XMCD spectrum at the Ni L 2;3 edges in a Ni single crystal was reported by Chen et al. in 1990. 10) The circularly polarized soft X-rays were obtained by the off-plain method, similar to the previous XMCD measurement at the Fe K edge.3) The intensity of the observed XMCD signal was about 8% with respect to the resonant absorption, the so called white line, and was much larger than that recorded at the K edge. The strong XMCD value at the...

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Evidence of intrinsic magnetism in capped ZnO nanoparticles

Cited by 84 publications

References 30 publications

Revisiting magnetism of capped Au and ZnO nanoparticles: Surface band structure and atomic orbital with giant magnetic moment

Revisiting magnetism of capped Au and ZnO nanoparticles: Surface band structure and atomic orbital with giant magnetic moment

Emergent ferromagnetism in ZnO/Al₂O₃ core-shell nanowires: Towards oxide spinterfaces

Recent Progress of the X-ray Magnetic Circular Dichroism Technique for Element-Specific Magnetic Analysis

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Evidence of intrinsic magnetism in capped ZnO nanoparticles

Cited by 84 publications

References 30 publications

Revisiting magnetism of capped Au and ZnO nanoparticles: Surface band structure and atomic orbital with giant magnetic moment

Revisiting magnetism of capped Au and ZnO nanoparticles: Surface band structure and atomic orbital with giant magnetic moment

Emergent ferromagnetism in ZnO/Al2O3 core-shell nanowires: Towards oxide spinterfaces

Recent Progress of the X-ray Magnetic Circular Dichroism Technique for Element-Specific Magnetic Analysis

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Emergent ferromagnetism in ZnO/Al₂O₃ core-shell nanowires: Towards oxide spinterfaces