|Accès | Contact | Annuaire | Plannings-resa | Intranet||Access | Contact | Directory|
Mr Loic D'ARRAS soutiendra le vendredi 20 septembre 2013 pour le grade de docteur de l'Université Pierre et Marie Curie.
Titre : Synthèse et caractérisations de composés hybrides de type MOF à base de titane et de cérium
Lieu et horaire : Collège de France, 11 place Marcelin Berthelot, 75005 Paris, Bâtiment A, Salle 5 à 14h00
Molecular Engineering of functional inorganic and hybrid materials
Influence of Structure and Organic-Inorganic Phase Interactions on Coating Mechanical Properties in the Ternary Goethite:Poly(HEMA):Silica System.
Luminescence properties of pHEMA-TiO(2) gels based hybrids materials.
Nanorods of Well-Defined Length and Monodisperse Cross-Section Obtained from Electrostatic Complexation of Nanoparticles with a Semiflexible Biopolymer.
New hybrid core-shell star-like architectures made of poly(n-butyl acrylate) grown from well-defined titanium oxo-clusters.
Titanium oxo-clusters: precursors for a Lego-like construction of nanostructured hybrid materials.
Synthesis, Characterization, and Rheological Properties of Hybrid Titanium Star-Shaped Poly(n-butyl acrylate).
Ti₈O₈(OOCR)₁₆, a new family of Titanium-Oxo Clusters : Potential NBUs for reticular chemistry.
Integrative Approaches to Hybrid Multifonctional Materials : From Multidisciplinary Research to Applied Technologies.
"Chimie douce" : The land of opportunities for the designed construction of functional inorganic and hybrid organic-inorganic nanomaterials.
Laser-induced photopatterning of organic-inorganic TiO2-based hybrid materials with tunable interfacial electron transfer.
A new Photoactive Crystalline Highly Porous Titanium (IV) Dicarboxylate.
Structure and mechanical properties of mesostructured functional hybrid coatings based on anisotropic nanoparticles dispersed in poly(hydroxylethyl methacrylate)
Titanium oxo-clusters as nanobuilding blocks for microsystems technology.
Extinction of photo-induced Ti3+ centres in titanium oxide gels and gel- based oxo-PHEMA hybrids.
Tailoring the structure of hybrid organic inorganic nanomaterials built on tetra- and polyfunctional alco-oxo-titanium clusters in polystyrene.
Design of nanohybrids from well defined nanobuilding blocks.
New hybrid organic-inorganic materials based on a poly(titanium oxide) gel with efficient UV-induced separation of charges
Titanium-oxo clusters, versatile nanobuilding blocks for the design of advanced hybrid materials
Elaboration and mechanical characterization of nanocomposites thin films. Part II : Correlation between structure and mechanical properties of SiO2-PMMA hybrid materials.
Elaboration and mechanical characterization of nanocomposites thin films. Part I : Determination of the mechanical properties of thin films prepared by in situ polymerisation of tetraethoxysilane in poly(methyl methacrylate)
Reinforcement of polystyrene by covalently bonded oxo-titanium clusters
Functionalized alkoxy tin clusters as nanobuilding blocks for hybrid materials.
Novel organo-functional titanium-oxo-cluster-basedhybrid materials with enhanced thermomechanical and thermal properties.
Reactivity of titanium oxo ethoxocluster [Ti18O18(OEt)32]. Versatile precursor of nanobuilding block-based hybridmaterials.
Mechanical properties of hybrid organic-inorganicmaterials.
New photoactive hybrid organic-inorganicmaterials based on titanium-oxo-PHEMA nanocomposites exhibiting mixed valenceproperties.
New hybrid organic-inorganicnanocomposites based on functional [Ti16O16(OEt)24(OEMA)8] nano-fillers.
Structure and surface reactivity of transition-metal-oxo-organo clusters: contribution of liquid-and solid-state NMR to the characterization of thecluster Ti16O16(OEt)32.