Absence of ferromagnetic order in high quality bulk Co-doped ZnO samples

Carvalho, H. B. de; Godoy, Marcio Peron Franco de; Paes, R. W. D.; Mir, Mohammad Hedayetullah; Zevallos, A. Ortiz de; Iikawa, F.; Brasil, M. J. S. P.; Chitta, V. A.; Ferraz, Wilmar Barbosa; Boselli, M. A.; Sabioni, Antônio Claret Soares

doi:10.1063/1.3459885

Cited by 53 publications

(24 citation statements)

References 34 publications

(27 reference statements)

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“…There are three peaks corresponding to ZnO: a strong E 2 (H) (high) mode at 438 cm À1 associated with A 1 (TO) mode at 380 cm À1 , and E 2H -E 2L second order mode at 330 cm À1 . 28,31 These are all characteristic signatures of ZnO. There is also a broad band from 500 cm À1 to 600 cm À1 having two distinct peaks at 550 cm À1 and 580 cm À1 corresponding to AM (additional mode and cannot be attributed to ZnO mode) and A 1 (LO) 31 mode, respectively.…”

Section: Raman Spectroscopy Of Co-doped Zno Nanorodsmentioning

confidence: 93%

“…28,31 These are all characteristic signatures of ZnO. There is also a broad band from 500 cm À1 to 600 cm À1 having two distinct peaks at 550 cm À1 and 580 cm À1 corresponding to AM (additional mode and cannot be attributed to ZnO mode) and A 1 (LO) 31 mode, respectively. The presence of an excess concentration of Co either inside the ZnO lattice in the form of doping or in the growth solution introduce disorder in the ZnO crystal and subsequently generate strain in the ZnO lattice.…”

Section: Raman Spectroscopy Of Co-doped Zno Nanorodsmentioning

confidence: 93%

“…Although there are several published reports related to Co doped ZnO, 21-32 the research is limited to the study of magnetic property, [29][30][31][32] such as ferromagnetism at room temperature. Effect of Co doping on the surface properties and crystalline quality of ZnO have rarely been addressed.…”

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confidence: 99%

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Enhancement in the structure quality of ZnO nanorods by diluted Co dopants: Analyses via optical second harmonic generation

Liu

Chang

Brahma

et al. 2015

Journal of Applied Physics

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Section: Raman Spectroscopy Of Co-doped Zno Nanorodsmentioning

confidence: 93%

Section: Raman Spectroscopy Of Co-doped Zno Nanorodsmentioning

confidence: 93%

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Enhancement in the structure quality of ZnO nanorods by diluted Co dopants: Analyses via optical second harmonic generation

Liu

Chang

Brahma

et al. 2015

Journal of Applied Physics

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“…It is important to note that the temperature used in this work to obtain the ZnO phase is low compared with conventional ZnO powders, where phase formation and sintering of the particles occurs above 1400 • C [21]. The powders are crystalline at ZnO hexagonal form, indexed by JCPDS card No.…”

Section: -P3mentioning

confidence: 99%

“…Much attention has been directed to ZnO doped with transition-metal ions, such as Co ions [21]. This diluted magnetic semiconductor has proposed as an alternative…”

Section: Introductionmentioning

confidence: 99%

CoO doping effects on the ZnO films through EBPDV technique

Bernardi

Maia

Antonelli

et al. 2014

Eur. Phys. J. Appl. Phys.

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Abstract. Nanometric Zn1−xCoxO (x = 0.020, 0.025 and 0.030 in mol.%) nanopowders were obtained from low temperature calcination of a resin prepared using the Pechini's method. Firing the Zn1−xCoxO resin at 400 • C/2 h a powder with hexagonal structure was obtained as measured by X-ray diffraction (XRD). The powder presented average particle size of 40 nm observed by field emission scanning electronic microscopy (FE-SEM) micrographs and average crystallite size of 10 nm calculated from the XRD using Scherrer's equation. Nanocrystalline Zn 1−xCoxO films with good homogeneity and optical quality were obtained with 280-980 nm thicknesses by electron beam physical vapour deposition (EBPVD) under vacuum onto silica substrate at 25 • C. Scanning electron microscopy with field emission gun showed that the film microstructure is composed by spherical grains and some needles. In these conditions of deposition the films presented only hexagonal phase observed by XRD. The UV-visible-NIR and diffuse reflectance properties of the films were measured and the electric properties were calculated using the reflectance and transmittance spectra.

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Phase Transformations of Cobalt Oxides in Co_xO_y-ZnO Multipod Nanostructures via Combustion from Thermopower Waves

Lee

Hwang

Choi

2015

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The study of combustion at the interfaces of materials and chemical fuels has led to developments in diverse fields such as materials chemistry and energy conversion. Recently, it has been suggested that thermopower waves can utilize chemical-thermal-electrical-energy conversion in hybrid structures comprising nanomaterials and combustible fuels to produce enhanced combustion waves with concomitant voltage generation. In this study, this is the first time that the direct phase transformation of Co-doped ZnO via instant combustion waves and its applications to thermopower waves is presented. It is demonstrated that the chemical combustion waves at the surfaces of Co3O4-ZnO multipod nanostructures (deep brown in color) enable direct phase transformations to newly formed CoO-ZnO(1-x) nanoparticles (olive green in color). The oxygen molecules are released from Co3O4-ZnO to CoO-ZnO(1-x) under high-temperature conditions in the reaction front regime in combustion, whereas the CoO-ZnO multipod nanoparticles do not undergo any transformations and thus do not experience any color change. This oxygen-release mechanism is applicable to thermopower waves, enhances the self-propagating combustion velocity, and forms lattice defects that interrupt the charge-carrier movements inside the nanostructures. The chemical transformation and corresponding energy transport observed in this study can contribute to diverse potential applications, including direct-combustion synthesis and energy conversion.

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Absence of ferromagnetic order in high quality bulk Co-doped ZnO samples

Cited by 53 publications

References 34 publications

Enhancement in the structure quality of ZnO nanorods by diluted Co dopants: Analyses via optical second harmonic generation

Enhancement in the structure quality of ZnO nanorods by diluted Co dopants: Analyses via optical second harmonic generation

CoO doping effects on the ZnO films through EBPDV technique

Phase Transformations of Cobalt Oxides in Co_xO_y-ZnO Multipod Nanostructures via Combustion from Thermopower Waves

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Absence of ferromagnetic order in high quality bulk Co-doped ZnO samples

Cited by 53 publications

References 34 publications

Enhancement in the structure quality of ZnO nanorods by diluted Co dopants: Analyses via optical second harmonic generation

Enhancement in the structure quality of ZnO nanorods by diluted Co dopants: Analyses via optical second harmonic generation

CoO doping effects on the ZnO films through EBPDV technique

Phase Transformations of Cobalt Oxides in CoxOy-ZnO Multipod Nanostructures via Combustion from Thermopower Waves

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Phase Transformations of Cobalt Oxides in Co_xO_y-ZnO Multipod Nanostructures via Combustion from Thermopower Waves