Direct Relationship Between Shape and Size of Template and Synthesis of Copper Metal Particles
Identifieur interne : 00C529 ( Main/Exploration ); précédent : 00C528; suivant : 00C530Direct Relationship Between Shape and Size of Template and Synthesis of Copper Metal Particles
Auteurs : M. Pileni [France] ; B. W. Ninham [Australie] ; T. Gulik-Krzywicki [France] ; J. Tanori [France] ; I. Lisiecki [France] ; A. Filankembo [France]Source :
- Advanced Materials [ 0935-9648 ] ; 1999-11.
English descriptors
- KwdEn :
- Alkyl chains, Carbon grid, Chem, Chemical reaction, Copper metal particles, Cylindrical particles, Electron microscopy, Ffem pattern, Ffem patterns, Final version, Functionalized surfactants, Hydrazine addition, Initial material, Isooctane, Isotropic phase, Large objects, Mater, Micelle, Microstructure, Phase diagram, Phys, Pileni, Polar head group, Polar volume fraction, Spherical micelles, Spherical particles, Structural behavior, Surfactant, Surfactant volume fraction, Various concentrations, Verlag gmbh, Volume fraction, Volume fractions, Water content, Water molecules.
- Teeft :
- Alkyl chains, Carbon grid, Chem, Chemical reaction, Copper metal particles, Cylindrical particles, Electron microscopy, Ffem pattern, Ffem patterns, Final version, Functionalized surfactants, Hydrazine addition, Initial material, Isooctane, Isotropic phase, Large objects, Mater, Micelle, Microstructure, Phase diagram, Phys, Pileni, Polar head group, Polar volume fraction, Spherical micelles, Spherical particles, Structural behavior, Surfactant, Surfactant volume fraction, Various concentrations, Verlag gmbh, Volume fraction, Volume fractions, Water content, Water molecules.
Abstract
Well‐defined surfactant self‐assembled microstructures are needed to take full advantage of the templating strategy for the generation of nanoparticles with controlled size and anisometry, as demonstrated here. For example, at a high concentration of Cu(AOT)2 (AOT = bis(ethylhexyl)sulfosuccinate) in isooctane–water the micellar supra‐aggregate depicted in the Figure forms, and spherical copper metal particles are produced.
Url:
DOI: 10.1002/(SICI)1521-4095(199911)11:16<1358::AID-ADMA1358>3.0.CO;2-#
Affiliations:
Links toward previous steps (curation, corpus...)
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Le document en format XML
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<term>Ffem patterns</term>
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<term>Functionalized surfactants</term>
<term>Hydrazine addition</term>
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<term>Micelle</term>
<term>Microstructure</term>
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<term>Structural behavior</term>
<term>Surfactant</term>
<term>Surfactant volume fraction</term>
<term>Various concentrations</term>
<term>Verlag gmbh</term>
<term>Volume fraction</term>
<term>Volume fractions</term>
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<term>Electron microscopy</term>
<term>Ffem pattern</term>
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<term>Hydrazine addition</term>
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<term>Isotropic phase</term>
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<term>Polar head group</term>
<term>Polar volume fraction</term>
<term>Spherical micelles</term>
<term>Spherical particles</term>
<term>Structural behavior</term>
<term>Surfactant</term>
<term>Surfactant volume fraction</term>
<term>Various concentrations</term>
<term>Verlag gmbh</term>
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<front><div type="abstract">Well‐defined surfactant self‐assembled microstructures are needed to take full advantage of the templating strategy for the generation of nanoparticles with controlled size and anisometry, as demonstrated here. For example, at a high concentration of Cu(AOT)2 (AOT = bis(ethylhexyl)sulfosuccinate) in isooctane–water the micellar supra‐aggregate depicted in the Figure forms, and spherical copper metal particles are produced.</div>
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