Structural and magnetic properties of Fex–C1−x nanocomposite thin films

Babonneau, David; Briático, J.; Pétroff, F.; Cabioc’h, Thierry; Naudon, A.

doi:10.1063/1.372363

Cited by 81 publications

(73 citation statements)

References 54 publications

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“…The estimated value of K is of the same order as reported before for Fe-C nanoparticles ͑K ϳ 1.7 ϫ 10 7 ergs/ cm 3 ͒. 40 One distinction in the ZFC curve in Fig. 6 is a flat maximum located around 150± 30 K, indicating a broad particle size distribution after carbon SWNT growth.…”

Section: M/m S = Coth͑ H/k B T͒ − K B T/ H ͑2͒supporting

confidence: 65%

Evolution of catalyst particle size during carbon single walled nanotube growth and its effect on the tube characteristics

Harutyunyan

Tokune

Mora

et al. 2006

Journal of Applied Physics

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A series of Fe catalysts, with different mean diameters, supported on alumina with different molar ratios, was studied before and after carbon single walled nanotubes growth using magnetic measurements and Raman scattering techniques (laser excitation wavelengths from 1.17to2.54eV) to follow changes on catalyst particle size and composition, as well as the relationship between particle size and diameter of nanotubes grown. In all cases, an increase and redistribution of the particle size after the growth was concluded based on the blocking temperature values and Langevin function analysis. This is explained in terms of agglomeration of particles due to carbon-induced liquefaction accompanied with an increase in the catalyst mobility. For large particles no direct correlation between the catalyst size and the nanotube diameters was observed.

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Section: M/m S = Coth͑ H/k B T͒ − K B T/ H ͑2͒supporting

confidence: 65%

Evolution of catalyst particle size during carbon single walled nanotube growth and its effect on the tube characteristics

Harutyunyan

Tokune

Mora

et al. 2006

Journal of Applied Physics

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“…Bubonneau et al have shown that in the related Fe-C system, the as-deposited films are composed of Fe nanoparticles embedded in a moreor-less graphitized C matrix. 12 It is known that the graphite phase ͑density of 2.2 g/cm 3 ) can transform into amorphous one ͑density of 1.6 g/cm 3 ) under thermal/laser treatment. 13,14 It is natural that this transformation is accompanied by the film thickness change.…”

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confidence: 99%

Magnetic nanodot arrays produced by direct laser interference lithography

Zheng

Liu

et al. 2001

Applied Physics Letters

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“…Saturation magnetization was very low 1 emu/gm. Results drawn for ferrites [1,2,6,7,10] and nanoparticles prepared by various method [8,9,11] were also found true for nano-Fe2O3 particles prepared by co-precipitation method. …”

Section: Introductionmentioning

confidence: 90%

“…Iron-rich nanoparticles of 2-8 nm were obtained. The saturation magnetization was found to decrease compared to the bulk value for pure α-Fe [9].Co-precipitation method was used to prepare Manganese ferrite, (MnFe2O4) fine particles in the size range 5-15 nm. The saturation magnetization again followed decreasing trend with decreasing size [10].…”

Section: Introductionmentioning

confidence: 99%