Pulsed plasma chemical synthesis of Fe
 2
 O
 3
 @TiO
 2
 core–shell nanocomposites

Kholodnaya, Galina; Sazonov, Roman; Ponomarev, Denis; Сивков, А. А.; Shanenkov, Ivan; Конусов, Ф. В.; Gadirov, R. M.

doi:10.1049/mnl.2020.0110

Cited by 3 publications

(1 citation statement)

References 26 publications

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“…Coating polymer on the magnesium hydroxide surface to form a stable core-shell structure is an effective way to achieve modification purpose. At present, there are many reports on inorganic-inorganic core-shell materials, such as the synthesis of Pt-SiO 2 , Fe 2 O 3 @TiO 2 , CdS/TiO 2 , Fe@SiO 2 [18][19][20][21], and microemulsion method plays a certain role in the construction of the core-shell material [18]. As to inorganic-polymer composite, Jassim prepared ZnO/polystyrene nanocomposite films via sol-gel process [22], Jang synthesized CdS/PMMA core/shell nanoparticles using dispersion-mediated interfacial polymerization [23], and Guo constructed MnO 2 @PPy nanorods via an in situ self-polymerization process [24].…”

Section: Introductionmentioning

confidence: 99%

Controllable microemulsion method for the synthesis of Mg(OH) ₂ /PS core–shell structures

Wu¹,

Gao²,

Ma³

et al. 2021

Micro & Nano Letters

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A core-shell structured Mg(OH) 2 /PS with enhanced surface lipophilicity was successfully synthesized by a microemulsion template. The core magnesium hydroxide was prepared in a cetyltrimethyl ammonium bromide (CTAB)/isopropanol/cyclohexane/water microemulsion, and the shell polystyrene (PS) was formed in situ by adding styrene monomer into oil phase of the microemulsion. The Mg(OH) 2 /PS core-shell nanoparticles were characterized by X-ray diffraction (XRD), scanning electron microscopy (SEM), X-ray photoelectron spectroscopy (XPS), thermogravimetry/differential scanning calorimetry (TG/DSC) and Fourier transform infrared spectroscopy (FT-IR). The results indicated that the obtained nanoparticles is a core-shell structure and well-dispersed; the polystyrene shell thicknesses could be controlled in the range of 9.11 to 13.36 nm by simply changing the dosage of styrene monomer. Due to its polymer coating modification and integrated core-shell structure, the Mg(OH) 2 /PS is with excellent surface lipophilicity and easy to mix with the organic phase. The results provide a facile method to produce the surface-modified inorganic material for functionality. 1This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Section: Introductionmentioning

confidence: 99%

Controllable microemulsion method for the synthesis of Mg(OH) ₂ /PS core–shell structures

Wu¹,

Gao²,

Ma³

et al. 2021

Micro & Nano Letters

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Use of alternative energy sources for the initiation and execution of chemical reactions and processes

Malkapuram,

Patil,

Sivaprakash

et al. 2024

Process Intensification for Chemical and Biotechnology Industries

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Effect of the concentration of the starting reagents and the design of the reaction chamber on the morphology and phase composition of the Cu_xO_y@SiO₂ nanocomposite synthesized by the pulsed plasma-chemical method

Kholodnaya

Ponomarev

Sazonov

et al. 2021

Inorganic and Nano-Metal Chemistry

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Pulsed plasma chemical synthesis of Fe ₂ O ₃ @TiO ₂ core–shell nanocomposites

Cited by 3 publications

References 26 publications

Controllable microemulsion method for the synthesis of Mg(OH) ₂ /PS core–shell structures

Controllable microemulsion method for the synthesis of Mg(OH) ₂ /PS core–shell structures

Use of alternative energy sources for the initiation and execution of chemical reactions and processes

Effect of the concentration of the starting reagents and the design of the reaction chamber on the morphology and phase composition of the Cu_xO_y@SiO₂ nanocomposite synthesized by the pulsed plasma-chemical method

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Pulsed plasma chemical synthesis of Fe 2 O 3 @TiO 2 core–shell nanocomposites

Cited by 3 publications

References 26 publications

Controllable microemulsion method for the synthesis of Mg(OH) 2 /PS core–shell structures

Controllable microemulsion method for the synthesis of Mg(OH) 2 /PS core–shell structures

Use of alternative energy sources for the initiation and execution of chemical reactions and processes

Effect of the concentration of the starting reagents and the design of the reaction chamber on the morphology and phase composition of the CuxOy@SiO2 nanocomposite synthesized by the pulsed plasma-chemical method

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Pulsed plasma chemical synthesis of Fe ₂ O ₃ @TiO ₂ core–shell nanocomposites

Controllable microemulsion method for the synthesis of Mg(OH) ₂ /PS core–shell structures

Controllable microemulsion method for the synthesis of Mg(OH) ₂ /PS core–shell structures

Effect of the concentration of the starting reagents and the design of the reaction chamber on the morphology and phase composition of the Cu_xO_y@SiO₂ nanocomposite synthesized by the pulsed plasma-chemical method