Your search keyword '"S. Badaire"' showing total 10 results

1. Hot-Drawing of Single and Multiwall Carbon Nanotube Fibers for High Toughness and Alignment

Author

Pascale Launois, Vincent Pichot, Philippe Poulin, M Maugey, Pierre Miaudet, S Badaire, A Derré, C Zakri, Centre de recherches Paul Pascal (CRPP), Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Physique des Solides (LPS), and Centre National de la Recherche Scientifique (CNRS)-Université Paris-Sud - Paris 11 (UP11)

Subjects

Toughness, Vinyl alcohol, Nanotube, Materials science, Composite number, Bioengineering, 02 engineering and technology, Carbon nanotube, 010402 general chemistry, 01 natural sciences, law.invention, chemistry.chemical_compound, Crystallinity, Fracture toughness, Hot working, law, General Materials Science, Composite material, [PHYS.COND]Physics [physics]/Condensed Matter [cond-mat], ComputingMilieux_MISCELLANEOUS, [PHYS]Physics [physics], Mechanical Engineering, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, chemistry, [PHYS.COND.CM-MS]Physics [physics]/Condensed Matter [cond-mat]/Materials Science [cond-mat.mtrl-sci], 0210 nano-technology

Abstract

We report a new hot-drawing process for treating wet-spun composite fibers made of single- and multiwall carbon nanotubes and poly(vinyl alcohol). As shown in previous reports, untreated composite nanotube fibers exhibit a very large strain-to-failure, and their toughness, which is the energy needed to break the fibers, exceeds that of any other known materials. However, untreated composite nanotube fibers absorb a very small amount of energy at low strain and become degraded in humid conditions. In this work, we use hot-drawing treatments, a concept inspired from textile technologies, to improve the properties of nanotube/PVA fibers. This treatment yields a crystallinity increase of the PVA and an unprecedented degree of alignment of the nanotubes. These structural modifications lead to a markedly improved energy absorption at low strain and make the fibers resistant to moisture. Hot-drawn nanotube/PVA fibers hold great potential for a number of applications such as bulletproof vests, protective textiles, helmets, and so forth.

Published

2005

2. Liquid Crystals of DNA-Stabilized Carbon NanotubesThis work has been done in the framework of the GDRE no. 2756 Science and applications of the nanotubes NANO-E.

Author

S. Badaire, C. Zakri, M. Maugey, A. Derr, J.?N. Barisci, G. Wallace, and P. Poulin

Published

2005

3. Mesoporous and Homothetic Silica Capsules in Reverse-Emulsion Microreactors.

Author

G. Fornasieri, S. Badaire, R. Backov, O. Mondain-Monval, and C. Zakri

Published

2004

4. Properties of Carbon Nanotube Fibers Spun from DNA-Stabilized Dispersions (J. N. Barisci acknowledges financial assistance from the Australian Academy of Science and the French Embassy for a visit to the CRPP—CNRS laboratories. G. G. Wallace acknowledges the continuing support of the Australian Research Council.)

Author

J. N. Barisci, M. Tahhan, G. G. Wallace, S. Badaire, T. Vaugien, and M. Maugey

Published

2004

5. Directed Self-Assembly of Micron-Sized Gold Nanoplatelets into Oriented Flexible Stacks with Tunable Interplate Distance.

Author

Vutukuri HR, Badaire S, de Winter DA, Imhof A, and van Blaaderen A

Abstract

A growing demand for control over the interparticle spacing and the orientation of anisotropic metallic particles into self-assembled structures is fuelled by their use in potential applications such as in plasmonics, catalysis, sensing, and optoelectronics. Here, we present an improved high yield synthesis method to fabricate micron- and submicron-sized gold nanoplatelets with a thickness less than 20 nm using silver nanoplatelets as seeds. By tuning the depth of the secondary minimum in the DLVO interaction potential between these particles, we are able to assemble the platelets into dynamic and flexible stacks containing thousands of platelets arranged face-to-face with well-defined spacing. Moreover, we demonstrate that the length of the stacks, and the interplate distance can be controlled between tens and hundreds of nm with the ionic strength. We use a high frequency external electric field to control the orientation of the stacks and direct the stacks into highly organized 2D and 3D assemblies that strongly polarize light.

Published

2015

6. An experimental and simulation study on the self-assembly of colloidal cubes in external electric fields.

Author

Vutukuri HR, Smallenburg F, Badaire S, Imhof A, Dijkstra M, and van Blaaderen A

Abstract

When a suspension of colloidal particles is placed in an oscillating electric field, the contrast in dielectric constant between the particles and the solvent induces a dipole moment in each of the colloidal particles. The resulting dipole-dipole interactions can strongly influence the phase behavior of the system. We investigate the phase behavior of cube-shaped colloidal particles in electric fields, using both experiments and Monte Carlo simulations. In addition to a string fluid phase and a body centered tetragonal (BCT) crystal phase, we observe a columnar phase consisting of hexagonally ordered strings of rotationally disordered cubes. By simulating the system for a range of pressures and electric field strengths, we map out the phase diagram, and compare the results to the experimentally observed phases. Additionally, we estimate the accuracy of a point-dipole approximation on the alignment of cubes in string-like clusters.

Published

2014

7. Experimental investigation of selective colloidal interactions controlled by shape, surface roughness, and steric layers.

Author

Badaire S, Cottin-Bizonne C, and Stroock AD

Abstract

Photolithography can be used to form monodisperse colloids of well-defined, nonspherical shape in a negative photoresist, SU-8. In aqueous suspension, in the presence of dextran as a depletant, we showed previously that the aggregation of these particles was highly selective for the end-to-end configuration: cylinders assembled into linear aggregates that could extend to lengths of tens of units without significant lateral aggregation. This article presents an in-depth study of the mechanisms by which these particles aggregate. In particular, we focus on the roles of global shape, roughness, and adsorbed layers of surfactants in mediating depletion, van der Waals (vdW), and electrostatic interactions between these particles. We describe in detail the fabrication and characterization of the particles. To allow for the interpretations of the experiments, we present predictions for the interactions between mathematically ideal cylinders with smooth surfaces, and a statistical thermodynamic model for the linear assemblies. We present experimental observations of the state of aggregation as a function of concentration of dextran and ionic strength for typical particles that present roughness of larger amplitude on their rounded side walls than on their flat ends. We compare this behavior to that of particles that lack this contrast in roughness; this comparison indicates that roughness can serve to attenuate strongly the attractive depletion interactions. To achieve a more quantitative measure of this effect, we analyze size distributions of linear aggregates to calculate the energies of the end-to-end "bonds" on the basis of our statistical model. We find that both the depletion and vdW interactions are attenuated approximately 20 fold relative to predictions for smooth surfaces. We conclude with an assessment of outstanding questions and opportunities to exploit shape and roughness to direct the self-assembly of colloids.

Published

2008

8. Shape selectivity in the assembly of lithographically designed colloidal particles.

Author

Badaire S, Cottin-Bizonne C, Woody JW, Yang A, and Stroock AD

Published

2007

9. Hot-drawing of single and multiwall carbon nanotube fibers for high toughness and alignment.

Author

Miaudet P, Badaire S, Maugey M, Derré A, Pichot V, Launois P, Poulin P, and Zakri C

Abstract

We report a new hot-drawing process for treating wet-spun composite fibers made of single- and multiwall carbon nanotubes and poly(vinyl alcohol). As shown in previous reports, untreated composite nanotube fibers exhibit a very large strain-to-failure, and their toughness, which is the energy needed to break the fibers, exceeds that of any other known materials. However, untreated composite nanotube fibers absorb a very small amount of energy at low strain and become degraded in humid conditions. In this work, we use hot-drawing treatments, a concept inspired from textile technologies, to improve the properties of nanotube/PVA fibers. This treatment yields a crystallinity increase of the PVA and an unprecedented degree of alignment of the nanotubes. These structural modifications lead to a markedly improved energy absorption at low strain and make the fibers resistant to moisture. Hot-drawn nanotube/PVA fibers hold great potential for a number of applications such as bulletproof vests, protective textiles, helmets, and so forth.

Published

2005

10. In situ measurements of nanotube dimensions in suspensions by depolarized dynamic light scattering.

Author

Badaire S, Poulin P, Maugey M, and Zakri C

Subjects

Light, Particle Size, Scattering, Radiation, Nanotubes, Carbon chemistry

Abstract

We show that the dimensions of carbon nanotubes (CNTs) in suspension can be characterized by depolarized dynamic light scattering. Taking advantages of this in situ technique, we investigate in detail the influence of sonication procedures on the length and diameter of CNTs in surfactant solutions. Sonication power is shown to be particularly efficient at unbundling nanotubes, whereas a long sonication time at low power can be sufficient to cut the bundles with limited unbundling. We finally demonstrate the influence of CNT dimensions on the electrical properties of CNT fibers. Slightly varying the sonication conditions, and thereby the suspended nanotube dimensions, can affect the fibers conductivity by almost 2 orders of magnitude.

Published

2004