Inventor · disambiguated record
Philippe Belleville
Also filed as: BELLEVILLE PHILIPPE
19 granted patents·10 pending applications·382 citations·filing 1993–2021
94Inventor score
Files withCOMMISSARIAT ENERGIE ATOMIQUE19BELLEVILLE PHILIPPE2BONDOUX CÉLINE2VALLE KARINE2BEAURAIN LAURENCE1
Top patents by PatentIndex Score
29 records- 0194US5639517AProcess for the production of thin films having optical propertiesCOMMISSARIAT ENERGIE ATOMIQUE·Filed 1993·Granted Jun 17, 1997·97 cites·17 claims
- 0290US5698266AProcess for the production of thin coatings having optical and abrasion resistance propertiesCOMMISSARIAT ENERGIE ATOMIQUE·Filed 1997·Granted Dec 16, 1997·106 cites·9 claims
- 0388US5858526AComposite material with a high refractive index, process for producing said composite material and optically active material incorporating said composite materialCOMMISSARIAT ENERGIE ATOMIQUE·Filed 1994·Granted Jan 12, 1999·58 cites·15 claims
- 0475US8137442B2Process for producing a nanoporous layer of nanoparticles and layer thus obtainedPINTAULT BRUNO·Filed 2007·Granted Mar 20, 2012·14 cites·35 claims
- 0575US6387517B1Inorganic polymer material with tantalic acid anhydride base, in particular with high refractive index, mechanically abrasionproof, method of manufacture, optical materials comprising such materialCOMMISSARIAT ENERGIE ATOMIQUE·Filed 1998·Granted May 14, 2002·35 cites·56 claims
- 0671US6180188B1Method for preparing a multilayer optical material with crosslinking-densifying by ultraviolet radiationCOMMISSARIAT ENERGIE ATOMIQUE·Filed 1998·Granted Jan 30, 2001·35 cites·31 claims
- 0770US8821961B2MgO-based coating for electrically insulating semiconductive substrates and production method thereofBONDOUX CÉLINE·Filed 2005·Granted Sep 2, 2014·8 cites·44 claims
- 0860US2011003130A1organic-inorganic hybrid material, optical thin layer of this material, optical material comprising same, and process for producing sameMARCHET NICOLAS·Filed 2009·Application pending·0 cites
- 0959US2016282520A1Organic-inorganic hybrid material, optical thin layer of this material, optical material comprising same, and process for producing sameCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2016·Application pending·0 cites
- 1058US2024043698A1Method for preparing thin films, in particular by means of the sol-gel processCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2021·Application pending·0 cites
- 1157US8084123B2Process for preparing a sol-gel solution and use of this solution to form a coating to protect a substrate having a metal surfaceBEAURAIN LAURENCE·Filed 2006·Granted Dec 27, 2011·1 cites·23 claims
- 1257US7923066B2Organic-inorganic hybrid material comprising a mineral mesoporous phase and an organic phase, a membrane and fuel cellCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2004·Granted Apr 12, 2011·3 cites·37 claims
- 1354US6680080B1Method for antiglare treatment and material having antiglare propertiesCOMMISSARIAT ENERGIE ATOMIQUE·Filed 1998·Granted Jan 20, 2004·17 cites·7 claims
- 1452US7820723B2Method of preparing a stable lead zircon-titanate sol and method for preparing films based on sameCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2002·Granted Oct 26, 2010·4 cites·14 claims
- 1549US12486203B2Composition and method for making parts consisting of oxide ceramics or hybrid parts by a stereolithographic techniqueCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2020·Granted Dec 2, 2025·0 cites·26 claims
- 1644US10717656B2Method for preparing a material made from aluminosilicate and method for preparing a composite material having an aluminosilicate matrixCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2016·Granted Jul 21, 2020·0 cites·29 claims
- 1744US2008292790A1Process For Producing a Coating Based on an Oxide Ceramic that Conforms to the Geometry of a Substrate Having Features in ReliefCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2006·Application pending·0 cites
- 1843US10833248B2Method for preparing a sol-gel solution which can be used for preparing a barium titanate ceramic doped with hafnium and/or with at least one lanthanide elementCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2016·Granted Nov 10, 2020·0 cites·16 claims
- 1942US11084755B2Method for improving the resistance to laser flux of an optical componentCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2017·Granted Aug 10, 2021·0 cites·11 claims
- 2041US2014332935A1MgO-Based Coating for Electrically Insulating Semiconductive Substrates and Production Method ThereofBONDOUX CÉLINE·Filed 2014·Application pending·0 cites
- 2138US10214444B2Method for treating a surface and device implementedCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2014·Granted Feb 26, 2019·0 cites·12 claims
- 2238US2007166872A1Process for producing thin photosensitized semiconducting filmsPRENE PHILIPPE·Filed 2005·Application pending·0 cites
- 2336US2008175985A1Method of Preparing Stable Oxide Ceramic Precursor Sol-Gel Solutions Based on Lead, Titanium, Zirconium and Lanthanide(s) and Method of Preparing Said CeramicCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2006·Application pending·0 cites
- 2435US2008090071A1Nanosturctured Coating and Coating MethodCOMMISSARIAT ENERGIE ATOMIQUE·Filed 2005·Application pending·0 cites
- 2535US2007066778A1Pn-semiconductor inorganic/organic hybrid material, its method of production and photovoltaic cell comprising said materialBELLEVILLE PHILIPPE·Filed 2004·Application pending·0 cites
- 2633US9156995B2Preparation of stable metal oxide sols, notably for making thin abrasion-resistant films with optical propertiesBELLEVILLE PHILIPPE·Filed 2011·Granted Oct 13, 2015·0 cites·24 claims
- 2732US12347906B2Organic-inorganic hybrid nanofibres having a mesoporous inorganic phase, preparation thereof by electrospinning, membrane, electrode, and fuel cellVALLE KARINE·Filed 2011·Granted Jul 1, 2025·0 cites·39 claims
- 2832US2006182942A1Conductive organic-inorganic hybrid material comprising a mesoporous phase, membrane, electrode and fuel cellVALLE KARINE·Filed 2004·Application pending·0 cites
- 2927US6579477B1Method for making optical components by replicationCOMMISSARIAT ENERGIE ATOMIQUE·Filed 1999·Granted Jun 17, 2003·4 cites·19 claims
Identity basis: PatentsView inventor disambiguation (2025Q4-odp release). How scoring works →