Christophe Navarro
30Patents
3h-index
58Co-inventors
66Inventor score
Filing activity: Apr 10, 1998 → Nov 14, 2023
Most-cited inventions
| Patent | Title | Area | Cited by | Status |
|---|---|---|---|---|
| US7144952B1 | Compositions based on semicrystalline thermoplastic resins and block copolymers, resulting materials and methods for obtaining same | Chemistry; Metallurgy | 64 | Expired |
| US7202308B2 | Hydrogenation method for unsaturated block copolymers and hydrogenated unsaturated block copolymers | Emerging Cross-Sectional Technologies | 56 | Expired |
| US6262204A | Initiation system comprising a heterocyclic ligand for anionic polymerization of (METH)acrylic monomer(s) and polymerization process using same | Chemistry; Metallurgy | 5 | Expired |
| US7287899B2 | Method for continuously and dynamically mixing at least two fluids, and micromixer | Emerging Cross-Sectional Technologies | 3 | Expired |
| US9068036B2 | Process for core-shell impact modifiers and impact modified thermoplastic composition with enhanced hydrolytic resistance | Chemistry; Metallurgy | 3 | Active |
| US10316127B2 | Process of manufacturing a multistage polymer, its composition, its use and composition comprising it | Chemistry; Metallurgy | 2 | Active |
| US9714314B2 | Core shell particle multistage polymer powder, its manufacturing process | Chemistry; Metallurgy | 2 | Active |
| US9527108B2 | Method for preparing surfaces | Chemistry; Metallurgy | 2 | Active |
| US6489262B2 | Initiation system and process for anionic (co) polymerization of (Meth) acrylic, vinylaromatic and/or diene monomers | Chemistry; Metallurgy | 1 | Expired |
| US6590052B2 | Process for continuous polymerization with micromixing of reactive fluids | Performing Operations; Transporting | 1 | Expired |
| US8883957B2 | Process for the preparation of polylactones and polylactams | Emerging Cross-Sectional Technologies | 1 | Active |
| US8183322B2 | Composition containing a lactic acid homopolymer and a block copolymer | Chemistry; Metallurgy | 1 | Active |
| US10928725B2 | Method for the directed self-assembly of a block copolymer by graphoepitaxy | Electricity | 0 | Active |
| US6319875A | Initiation system comprising a silylated initiator for anionic (co)polymerization of (meth)acrylic monomer(s) and process using same | Chemistry; Metallurgy | 0 | Expired |
| US9349962B2 | Composition for an active layer or electrode of photovoltaic cells | Emerging Cross-Sectional Technologies | 0 | Active |
| US8796403B2 | Copolymers with polar and non-polar olefin blocks | Chemistry; Metallurgy | 0 | Active |
| US10845705B2 | Method for forming a chemical guiding structure on a substrate and chemoepitaxy method | Performing Operations; Transporting | 0 | Active |
| US9558861B2 | Block copolymers that disperse nanofillers in water | Emerging Cross-Sectional Technologies | 0 | Active |
| US9976053B2 | Process for controlling the period of a nanostructured block copolymer film based on styrene and on methyl methacrylate, and nanostructured block copolymer film | Chemistry; Metallurgy | 0 | Active |
| US11880131B2 | Process for transfer imprinting | Chemistry; Metallurgy | 0 | Active |
| US10199135B2 | Stable compositions of carbon nanotubes-electrolytic polymers | Emerging Cross-Sectional Technologies | 0 | Active |
| US9599890B2 | Method for manufacturing a nanolithography mask | Electricity | 0 | Active |
| US10011675B2 | Process for the nanostructuring of a block copolymer film using a nonstructured block copolymer based on styrene and on methyl methacrylate, and nanostructured block copolymer film | Emerging Cross-Sectional Technologies | 0 | Active |
| US10023677B2 | Method for controlling the synthesis of a block copolymer containing at least one nonpolar block and at least one polar block and use of said block copolymer in applications of nanolithography by direct self-assembly | Performing Operations; Transporting | 0 | Active |
| US9296014B2 | Process for controlling the period characterizing the morphology obtained from a blend of block copolymers and of co(polymers) of one of the blocks | Physics | 0 | Active |
Source: USPTO / EPO open patent data. Inventor disambiguation is heuristic; counts are objective bibliographic measures.