N.L.V. Carreño scite author profile

We have performed a detailed characterization of the magnetic properties of Ni nanoparticles embedded in a SiO 2 amorphous matrix. A modified sol-gel method was employed which resulted in Ni particles with average radius ϳ3 nm, as inferred by TEM analysis. Above the blocking temperature T B Ϸ20 K for the most diluted sample, magnetization data show the expected scaling of the M /M S vs H/T curves for superparamagnetic particles. The hysteresis loops were found to be symmetric about zero field axis with no shift via exchange bias, suggesting that Ni particles are free from an oxide layer. For TϽT B the magnetic behavior of these Ni nanoparticles is in excellent agreement with the predictions of randomly oriented and noninteracting magnetic particles, as suggested by the temperature dependence of the coercivity field that obeys the relation H C (T)ϭH C0 ͓1Ϫ(T/T B) 1/2 ͔ below T B with H C0 ϳ780 Oe. The obtained values of H C0 , considering the temperature dependence of the magnetic anisotropy constant, are discussed within the scenario of isolated randomly oriented and noninteracting single-domain particles.

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Development of Metal−SiO₂ Nanocomposites in a Single-Step Process by the Polymerizable Complex Method

Leite¹,

Carreño²,

Longo³

et al. 2002

Chem. Mater.

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This work presents the synthesis and characterization of SiO 2 :metal (Ni, Co, Ag, and Fe) nanocomposites processed by the polymerizable complex method. The polymeric precursor solutions obtained were characterized by means of FT-Raman and 13 C NMR spectroscopy. The results show the formation of a hybrid polymer with carbon and silicon in the macromolecule chain and the transition metal cation arrested within this polymeric chain. The nanocomposites are formed during the controlled polymeric precursor pyrolysis. The reduction of the metal cation is promoted by the CO/CO 2 atmosphere resulting from the pyrolysis of the organic material. Microstructural characterization, performed by TEM and X-ray diffraction (XRD), showed that the nanocomposites are formed by metal nanoparticles embedded in a amorphous matrix formed by SiO 2 and carbon. In the SiO 2 :Fe system, Fe 3 C was also detected by XRD.

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Photoluminescence of nanostructured PbTiO3 processed by high-energy mechanical milling

Leite

Santos

Carreño

et al. 2001

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This letter reports on a process to prepare nanostructured PbTiO3 (PT) at room temperature with photoluminescence (PL) emission in the visible range. This process is based on the high-energy mechanical milling of ultrafine PbTiO3 powder. The results suggest that high-energy mechanical milling modifies the particle’s structure, resulting in localized states in an interfacial region between the crystalline PT and the amorphous PT. These localized states are believed to be responsible for the PL obtained with short milling times. When long milling times are employed, the amorphous phase that is formed causes PL behavior. An alternative method to process nanostructured wide-band-gap semiconductors with active optical properties such as PL is described in this letter.

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Histological Evaluation of Bone Repair with Hydroxyapatite: A Systematic Review

et al. 2017

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The aim of this study was to evaluate the morphological bone response in animal experiments by applying hydroxyapatite grafts in critical and non-critical size bone defects. Current report followed the guidelines established by the Preferred Reporting Items for Systematic Reviews and Meta-Analyses. Animal experiments were selected by assessing repair of bone defects with hydroxyapatite as bone graft and with blood clot only as control. Eight articles were identified in specialized literature and included in the meta-analysis. Statistical analysis was carried out with a random-effect model (p = 0.05). Subgroup analyses were further performed to investigate bone repair in critical and non-critical bone defects. Comprehensive analysis of bone repair outcome showed a statistically significant difference between hydroxyapatite and blood clot control (p < 0.05). Subgroup analyses showed statistically significant difference for critical bone defects (p < 0.05). No statistically significant difference was reported in non-critical bone defects (p > 0.05). Although animal studies revealed a high risk of bias and results should be interpreted with caution, the literature suggests that non-critical bone defects may heal spontaneously and without the need of a bone graft. Conversely, when critical-size defects are present, the use of hydroxyapatite bone graft improves the bone repair process.

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Nanofiller loading level: Influence on selected properties of an adhesive resin

Conde

Zanchi

Rodrigues-Junior

et al. 2009

Journal of Dentistry

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N.L.V. Carreño

Superparamagnetism and magnetic properties of Ni nanoparticles embedded inSiO2

Development of Metal−SiO₂ Nanocomposites in a Single-Step Process by the Polymerizable Complex Method

Photoluminescence of nanostructured PbTiO3 processed by high-energy mechanical milling

Histological Evaluation of Bone Repair with Hydroxyapatite: A Systematic Review

Nanofiller loading level: Influence on selected properties of an adhesive resin

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N.L.V. Carreño

Superparamagnetism and magnetic properties of Ni nanoparticles embedded inSiO2

Development of Metal−SiO2 Nanocomposites in a Single-Step Process by the Polymerizable Complex Method

Photoluminescence of nanostructured PbTiO3 processed by high-energy mechanical milling

Histological Evaluation of Bone Repair with Hydroxyapatite: A Systematic Review

Nanofiller loading level: Influence on selected properties of an adhesive resin

Contact Info

Product

Resources

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Development of Metal−SiO₂ Nanocomposites in a Single-Step Process by the Polymerizable Complex Method