The scientist’s investigation covers issues in Carbon nanotube, Nanotechnology, Composite material, Liquid crystal and Nanotube. His Carbon nanotube study combines topics in areas such as Fiber, Sonication, Analytical chemistry, Carbon and Electrochemistry. His Graphene study, which is part of a larger body of work in Nanotechnology, is frequently linked to Soft materials, bridging the gap between disciplines.
The study incorporates disciplines such as Percolation threshold, Conductivity and Cluster in addition to Composite material. His studies deal with areas such as Chemical physics, Dipole, Phase and Colloid as well as Liquid crystal. The various areas that Philippe Poulin examines in his Nanotube study include Fracture toughness, Crystallinity, Specific surface area and Hot working.
His primary areas of study are Carbon nanotube, Composite material, Nanotechnology, Composite number and Nanotube. His work carried out in the field of Carbon nanotube brings together such families of science as Fiber, Raman spectroscopy, Spinning, Dispersion and Carbon. His Nanotechnology research is multidisciplinary, relying on both Electrode, Conductivity and Liquid crystal.
He has included themes like Colloid, Phase and Anisotropy in his Liquid crystal study. His research in Colloid intersects with topics in Chemical physics and Dispersity. He interconnects Electrical conductor and Colloidal particle in the investigation of issues within Composite number.
His primary areas of investigation include Graphene, Nanotechnology, Composite material, Oxide and Electrostriction. His biological study spans a wide range of topics, including Nanoparticle, Polymer, Dielectric spectroscopy, Liquid crystal and Supercritical fluid. His study on Carbon nanotube and Sheet resistance is often connected to Context as part of broader study in Nanotechnology.
His Carbon nanotube research includes elements of Fiber, Dispersion and Anode. As a part of the same scientific family, Philippe Poulin mostly works in the field of Composite material, focusing on Dielectric and, on occasion, Polymer composites. His Oxide research is multidisciplinary, incorporating perspectives in Composite number and Carbonization.
Philippe Poulin spends much of his time researching Nanotechnology, Graphene, Carbon nanotube, Carbon and Carbon black. His Nanotechnology research incorporates elements of Gauge factor and Conductivity. His research integrates issues of Ultimate tensile strength, Composite material, Sheet resistance and Supercritical fluid in his study of Graphene.
While working in this field, Philippe Poulin studies both Carbon nanotube and Geobacter sulfurreducens. His study in Carbon black is interdisciplinary in nature, drawing from both Pressure sensor, Permittivity, Capacitance and Electronics. His work focuses on many connections between Bioelectrochemical reactor and other disciplines, such as Fiber, that overlap with his field of interest in Electrochemistry.
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Macroscopic fibers and ribbons of oriented carbon nanotubes.
Brigitte Vigolo;Alain Pénicaud;Claude Coulon;Cédric Sauder.
Novel Colloidal Interactions in Anisotropic Fluids
Philippe Poulin;Holger Stark;T. C. Lubensky;D. A. Weitz.
INVERTED AND MULTIPLE NEMATIC EMULSIONS
P. Poulin;D. A. Weitz.
Physical Review E (1998)
Colloidal ordering from phase separation in a liquid- crystalline continuous phase
Jean-Christophe Loudet;Philippe Barois;Philippe Poulin.
Engineering hybrid nanotube wires for high-power biofuel cells
Feng Gao;Lucie M Viry;Maryse Maugey;Philippe Poulin.
Nature Communications (2010)
Shape and Temperature Memory of Nanocomposites with Broadened Glass Transition
Pierre Miaudet;Alain Derré;Maryse Maugey;Cécile Zakri.
Hot-drawing of single and multiwall carbon nanotube fibers for high toughness and alignment.
P Miaudet;S Badaire;M Maugey;A Derré.
Nano Letters (2005)
Emulsions: basic principles
J Bibette;F Leal Calderon;P Poulin.
Reports on Progress in Physics (1999)
Direct Measurement of Colloidal Forces in an Anisotropic Solvent
P. Poulin;V. Cabuil;D. A. Weitz.
Physical Review Letters (1997)
Spontaneous dissolution of a single-wall carbon nanotube salt.
Alain Pénicaud;Philippe Poulin;Alain Derré;Eric Anglaret.
Journal of the American Chemical Society (2005)
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