Magnetic nanoparticles: preparation, structure and properties

  title={Magnetic nanoparticles: preparation, structure and properties},
  author={Sergei P Gubin and Yurii A Koksharov and G B Khomutov and Gleb Yu Yurkov},
  journal={Russian Chemical Reviews},
  pages={489 - 520}
The key methods for the preparation of magnetic nanoparticles are described systematically. The experimental data on their properties are analysed and generalised. The main theoretical views on the magnetism of nanoparticles are considered. 

Structural and magnetic properties of sonoelectrocrystallized magnetite nanoparticles

The effect of ultrasound power on the morphology, structure and magnetic properties of magnetite nanoparticles synthesized from iron electrodes by the electro-oxidation method was investigated.

Magnetic nanocomposites based on phosphorus-containing polymers—structural characterization and thermal analysis

The obtained results provide a comprehensive characterization of magnetic nanocomposites and the products of their calcination that are important for their possible applications as sorbents (regeneration conditions, processing temperature, disposal, etc).

Effect of Additives on the Formation of SmCo Magnetic Nanoparticles by Chemical Synthesis

  • J. Tian
  • Chemistry, Materials Science
  • 2014
Monodispersed magnetic SmCo nanoparticles have been prepared by polyol synthesis using non-toxic inorganic precursors (nitrates). The effect of the additives of NaOH, HNO3, CH3COOH and poly vinyl

Cobalt nanoparticles synthesis by cobalt nitrate reduction

The paper describes the synthesis of cobalt nanoparticles in alkali solutions. Co nanoparticles were synthesized by the chemical reduction of a Co(NO3)2 salt alkali solution. The process was followed

Magnetic and ferroelectric properties, crystal and magnetic structures of SrFe11.9In0.1O19

The structural investigations of SrFe11.9In0.1O19 compound synthesized by solid-state method have been carried by neutron diffraction method in a wide temperature range. The appearace of spontaneous

Metal-Carbon Nanocomposites FeNi/C: Production, Phase Composition, Magnetic Properties

FeNi alloy nanoparticles as a part of metal-carbon nanocomposites were obtained. The synthesis was carried out under conditions of IR annealing of precursors based on joint solution of polyvinyl

Hematite Core Nanoparticles with Carbon Shell: Potential for Environmentally Friendly Production from Iron Mining Sludge

Hematite nanoparticles with amorphous, yet relatively uniform carbon shell, were produced based exclusively on the waste sludge from the iron mine as the raw material. The procedure for acid

Magnetic, thermal and martensitic phase transitions in Ni–Co nanoparticles

The nickel-cobalt system is an important alloy in nanotechnology because of its ferromagnetic properties, high thermal stability and shape memory effect; but those properties are still mostly unknown at the nanoscale, so this manuscript fills this gap in knowledge.

NanoSQUID detection of magnetization from ferritin nanoparticles

A gold-shunted Nb nanoSQUID (SQUID: superconducting quantum interference device) operated in open-loop current-biased mode has been used to measure flux changes in the presence of nearby

PEGlatyon-SPION surface functionalization with folic acid for magnetic hyperthermia applications

A new route for the preparation of folate-conjugated PEGylated SPIONs is described, which involves the attachment of such molecules at the surface through polycondensation reactions, without the need for coupling agents or prior modification on the species involved.



Functionalization, and Surface Treatment of Nanoparticles (Los-Angeles, CA: Am

  • Sci. Publ.,
  • 2002

Chikazumi Magnetic Fluids-principle and Application (Tokio

  • Nokkan Kogyo Shinbun,
  • 1988


~Received 22 April 1997! Nanocrystalline Fe powder was synthesized by mechanical-energy high-transfer technique ~ball milling! .B y varying the duration of the mechanical attrition, powder with grain

Fabrication and magnetic properties of ultrathin Fe nanowire arrays

Ultrathin Fe nanowire (about 5 nm in diameter) arrays have been fabricated by electrodeposition using anodic porous alumina templates. These ultrathin nanowires exhibited uniaxial anisotropy and a