Synthesis and properties of sol-gel submicron silica powders doped with partly oxidized iron particles

B. Borak; S. Laskowski; O. Heczko; A. Aaltonen; A. Baszczuk; M. Jasiorski; O. Söderberg; B. Mazurek; M. Oja; S. P. Hannula; K. Maruszewski

doi:10.1007/s10971-006-0523-9

Synthesis and properties of sol-gel submicron silica powders doped with partly oxidized iron particles

B. Borak, S. Laskowski, O. Heczko, A. Aaltonen, A. Baszczuk, M. Jasiorski, O. Söderberg, B. Mazurek, M. Oja, S. P. Hannula, K. Maruszewski^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

6 Citations (Scopus)

Abstract

Magnetic powders based on metallic iron crystallites encapsulated in submicron-sized spherical silica particles have been obtained and investigated. The metallic iron clusters have been produced by the exploding wire method. The silica shells have been prepared via the modified sol-gel Stöber method and the metallic particles have been entrapped by occlusion during the silica powder formation. The entrapped iron particles are partially oxidized due to the nature of the synthetic methods employed. The obtained hybrid materials have been investigated by electron microscopy, X-ray diffraction, magnetic and ζ-potential techniques. Such materials can be employed in such applications as e.g. magnetically-controlled drug vectors or electromagnetic field-shielding.

Original language	English
Pages (from-to)	185-190
Number of pages	6
Journal	Journal of Sol-gel Science and Technology
Volume	41
Issue number	2
DOIs	https://doi.org/10.1007/s10971-006-0523-9
Publication status	Published - Feb 2007
MoE publication type	A1 Journal article-refereed

Keywords

Iron oxides
Iron particles
Magnetic SiO-Fe particles
The sol-gel method

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10.1007/s10971-006-0523-9

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title = "Synthesis and properties of sol-gel submicron silica powders doped with partly oxidized iron particles",

abstract = "Magnetic powders based on metallic iron crystallites encapsulated in submicron-sized spherical silica particles have been obtained and investigated. The metallic iron clusters have been produced by the exploding wire method. The silica shells have been prepared via the modified sol-gel St{\"o}ber method and the metallic particles have been entrapped by occlusion during the silica powder formation. The entrapped iron particles are partially oxidized due to the nature of the synthetic methods employed. The obtained hybrid materials have been investigated by electron microscopy, X-ray diffraction, magnetic and ζ-potential techniques. Such materials can be employed in such applications as e.g. magnetically-controlled drug vectors or electromagnetic field-shielding.",

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AU - Borak, B.

AU - Laskowski, S.

AU - Heczko, O.

AU - Aaltonen, A.

AU - Baszczuk, A.

AU - Jasiorski, M.

AU - Söderberg, O.

AU - Mazurek, B.

AU - Oja, M.

AU - Hannula, S. P.

AU - Maruszewski, K.

PY - 2007/2

Y1 - 2007/2

N2 - Magnetic powders based on metallic iron crystallites encapsulated in submicron-sized spherical silica particles have been obtained and investigated. The metallic iron clusters have been produced by the exploding wire method. The silica shells have been prepared via the modified sol-gel Stöber method and the metallic particles have been entrapped by occlusion during the silica powder formation. The entrapped iron particles are partially oxidized due to the nature of the synthetic methods employed. The obtained hybrid materials have been investigated by electron microscopy, X-ray diffraction, magnetic and ζ-potential techniques. Such materials can be employed in such applications as e.g. magnetically-controlled drug vectors or electromagnetic field-shielding.

AB - Magnetic powders based on metallic iron crystallites encapsulated in submicron-sized spherical silica particles have been obtained and investigated. The metallic iron clusters have been produced by the exploding wire method. The silica shells have been prepared via the modified sol-gel Stöber method and the metallic particles have been entrapped by occlusion during the silica powder formation. The entrapped iron particles are partially oxidized due to the nature of the synthetic methods employed. The obtained hybrid materials have been investigated by electron microscopy, X-ray diffraction, magnetic and ζ-potential techniques. Such materials can be employed in such applications as e.g. magnetically-controlled drug vectors or electromagnetic field-shielding.

KW - Iron oxides

KW - Iron particles

KW - Magnetic SiO-Fe particles

KW - The sol-gel method

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ER -

Synthesis and properties of sol-gel submicron silica powders doped with partly oxidized iron particles

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Keywords

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