Magnetic nanoparticles through organometallic synthesis: evolution of the magnetic properties from isolated nanoparticles to organised nanostructures

Magnetic nanoparticles through organometallic synthesis: evolution of the magnetic properties from isolated nanoparticles to organised nanostructures

Co and NiFe nanoparticles (2.7 to 3.3 nm mean diameter) of narrow size distribution have been obtained through the decomposition of organometallic precursors in organic solutions of long alkyl chain ligands, namely oleic acid and hexadecylamine. Materials of various volume fractions were produced. T...

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Veröffentlicht in:Faraday discussions 2004-01, Vol.125, p.265-78; discussion 293-309
Hauptverfasser: Dumestre, Fréderic, Martinez, Susana, Zitoun, David, Fromen, Marie-Claire, Casanove, Marie-José, Lecante, Pierre, Respaud, Marc, Serres, Arnaud, Benfield, Robert E, Amiens, Catherine, Chaudret, Bruno
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Materials Science
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container_end_page 78; discussion 293-309
container_issue
container_start_page 265
container_title Faraday discussions
container_volume 125
creator Dumestre, Fréderic
Martinez, Susana
Zitoun, David
Fromen, Marie-Claire
Casanove, Marie-José
Lecante, Pierre
Respaud, Marc
Serres, Arnaud
Benfield, Robert E
Amiens, Catherine
Chaudret, Bruno
description Co and NiFe nanoparticles (2.7 to 3.3 nm mean diameter) of narrow size distribution have been obtained through the decomposition of organometallic precursors in organic solutions of long alkyl chain ligands, namely oleic acid and hexadecylamine. Materials of various volume fractions were produced. The particles have been structurally characterised by WAXS. Both adopt the bulk structure: HCP in the case of cobalt; a mixture of FCC and BCC for NiFe. Their aptitude to self-assemble either on flat supports or in bulk solid state has been investigated by means of TEM and SAXS. This study suggests the crystallisation of the nanoparticles upon solvent evaporation, especially a local FCC arrangement was observed for the NiFe material. Magnetic measurements (SQUID) confirm this tendency. The blocking temperature depends on the metal volume fraction, i.e. on the anisotropy generated by the dipolar couplings (Ki). We show that, for dense samples, the particles of high intrinsic anisotropy, Ku, (Co) still display an individual behaviour while the soft ones (NiFe) display a collective behaviour.
doi_str_mv 10.1039/b303376g
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source Royal Society of Chemistry Journals Archive (1841-2007); Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection
subjects Condensed Matter
Materials Science
Physics
title Magnetic nanoparticles through organometallic synthesis: evolution of the magnetic properties from isolated nanoparticles to organised nanostructures
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