Search Results - "Lisiecki, I."

Solvent Effects on Cobalt Nanocrystal SynthesisA Facile Strategy To Control the Size of Co Nanocrystals by Costanzo, S, Simon, G, Richardi, J, Colomban, Ph, Lisiecki, I

“…In this paper, revisiting the chemical reduction approach of Co­(AOT)2 (AOT = bis­(2-ethylhexyl) sulfosuccinate) precursor by NaBH4, we highlight a novel…”
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Is the Anion the Major Parameter in the Shape Control of Nanocrystals? by Filankembo, A, Giorgio, S, Lisiecki, I, Pileni, M. P

“…In this paper, copper nanocrystals are produced by using Cu(AOT)2−isooctane−water solution as a template. Even if the template does not change with various…”
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Face-Centered Cubic Supra-Crystals and Disordered Three-Dimensional Assemblies of 7.5 nm Cobalt Nanocrystals:  Influence of the Mesoscopic Ordering on the Magnetic Properties by Lisiecki, I, Parker, D, Salzemann, C, Pileni, M. P

“…Previously, we have shown that we can control the mesoscopic order in three-dimensional (3D) assemblies of 7.5 nm Co nanocrystals to give either face-centered…”
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Low wavenumber Raman scattering of cobalt nanoparticles self-organized in 3D superlattices far from surface plasmon resonance by Simon, G., Meziane, L., Courty, A., Colomban, Ph, Lisiecki, I.

“…We report the first observation of low wavenumber Raman scattering from cobalt nanoparticles under 514.5nm laser excitation. These 7.4nm diameter particles…”
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Synthesis of Well-Defined and Low Size Distribution Cobalt Nanocrystals:  The Limited Influence of Reverse Micelles by Lisiecki, I, Pileni, M. P

“…Cobalt nanocrystals are produced in cobalt(II) bis(2-ethylhexyl)sulfosuccinate (Co(AOT)2) reverse micelles. It is found that their size distribution is related…”
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Face-Centered-Cubic "Supracrystals" of Cobalt Nanocrystals by Lisiecki, I., Albouy, P.-A., Pileni, M.-P.

“…Magnetic “supra” crystals have been built by slow evaporation of a solution of 7.2 nm cobalt nanoparticles in hexane. Scanning electron microscopy shows…”
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Anisotropic Copper Nanocrystals Synthesized in a Supersaturated Medium:  Nanocrystal Growth by Salzemann, C, Lisiecki, I, Urban, J, Pileni, M.-P

“…In the chemical reduction of copper ions in mixed reverse micelles it is found that a large excess of reducing agent favors the production of a new generation…”
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Collections of Copper Nanocrystals Characterized by Different Sizes and Shapes:  Optical Response of These Nanoobjects by Salzemann, C, Lisiecki, I, Brioude, A, Urban, J, Pileni, M.-P

“…The use of reverse micelles makes it possible to produce copper nanocrystals characterized by various sizes and shapes. By increasing the water content, the…”
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Synthesis of copper metallic clusters using reverse micelles as microreactors by Lisiecki, I, Pileni, M. P

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Difference between the Magnetic Properties of the Magnetotactic Bacteria and Those of the Extracted Magnetosomes: Influence of the Distance between the Chains of Magnetosomes by Alphandéry, E, Ngo, A. T, Lefèvre, C, Lisiecki, I, Wu, L. F, Pileni, M. P

“…We report structural characterization and magnetic properties of various assemblies of chains of magnetosomes. The same magnetic properties are observed for…”
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Characterization and Growth Process of Copper Nanodisks by Salzemann, C., Urban, J., Lisiecki, I., Pileni, M.-P.

“…Copper nanocrystals with plate‐like morphologies and face‐centered cubic (fcc) structures have been synthesized in mixed reverse micelles with a large excess…”
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2D Self-Organization of Core/Shell Cohcp/Co Nanocrystals by Lisiecki, I, Walls, M, Parker, D, Pileni, M. P

“…In this paper we report the preparation of ordered hexagonal 2D arrays of core/shell Cohcp/CoO nanocrystals. A full structural investigation has been carried…”
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Direct Relationship Between Shape and Size of Template and Synthesis of Copper Metal Particles by Pileni, M.-P., Ninham, B. W., Gulik-Krzywicki, T., Tanori, J., Lisiecki, I., Filankembo, A.

“…Well‐defined surfactant self‐assembled microstructures are needed to take full advantage of the templating strategy for the generation of nanoparticles with…”
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Mesoscopic void structures in cobalt nanocrystal films formed from drying concentrated colloidal solutions by Salzemann, C, Richardi, J, Lisiecki, I, Weis, J-J, Pileni, M P

“…Here we report the formation of void (hole) structures when concentrated colloidal solutions of magnetic nanocrystals are subjected to a magnetic field during…”
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Control of the Shape and the Size of Copper Metallic Particles by Lisiecki, I, Billoudet, F, Pileni, M. P

“…Colloidal copper particles were prepared in aqueous solution via the reduction of copper dodecyl sulfate, Cu(DS)2, by sodium borohydrate. Below the critical…”
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Is It Possible To Correlate a Collection of Copper Nanocrystals with Their Optical Response? by Salzemann, C, Lermé, J, Urban, J, Lisiecki, I

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Synthesis of Copper Nanosize Particles in Anionic Reverse Micelles: Effect of the Addition of a Cationic Surfactant on the Size of the Crystallites by Lisiecki, I, Bjoerling, M, Motte, L, Ninham, B, Pileni, M. P

“…The size of copper nanoparticles in reverse micelles can be controlled by varying the water content of anionic reverse micelles (AOT = sodium…”
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Annealing Process of Anisotropic Copper Nanocrystals. 2. Rods by Lisiecki, I, Sack-Kongehl, H, Weiss, K, Urban, J, Pileni, M.-P

“…The annealing process of well-defined long truncated decahedral Cu rods of a diameter in the nanometer-size range and a length of the order of 1 micron was…”
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Annealing Process of Anisotropic Copper Nanocrystals. 1. Cylinders by Lisiecki, I, Sack-Kongehl, H, Weiss, K, Urban, J, Pileni, M.-P

“…The annealing process of truncated decahedral cylindrical copper particles with 5-fold symmetry (7.5 × 20.5 nm) is presented. The melting point of the…”
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Copper Metallic Particles Synthesized "in Situ" in Reverse Micelles: Influence of Various Parameters on the Size of the Particles by Lisiecki, I, Pileni, M. P

“…Control of the size of metallic Cu particles formed in reverse micelles of AOT (sodium bis(2-ethylhexyl)-sulfosuccinate) was achieved by varying water content,…”
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