[특허]Coating composition for multiple hydrophilic applications

Coating composition for multiple hydrophilic applications 원문보기

IPC분류정보
국가/구분	United States(US) Patent 등록
국제특허분류(IPC7판)	C08J-003/215 C08J-003/20 A61M-025/00 C08K-003/22 C08K-003/00 C08L-075/00 C08L-039/06 C08L-039/00
출원번호	US-0260823 (2002-09-27)
발명자 / 주소	Schottman,Thomas C. Hennessey,Patrick M. Gruening,Rainer
출원인 / 주소	Hydromer, Inc.
대리인 / 주소	Hoffmann &
인용정보	피인용 횟수 : 187 인용 특허 : 292

초록 ▼

A coating composition is disclosed which comprises an aqueous polymeric matrix, a hydrophilic polymer, a colloidal metal oxide and a crosslinker. The coating composition when applied on medical devices is hydrophilic, shows improved lubricity, abrasion resistance and substrate adhesion on metallic or plastic substrates. The coating also shows improved water sheeting thus providing the coated substrates with anti-fog properties. The coating absorbs aqueous dye or stain solutions making the substrate suitable for printing.

대표청구항 ▼

We claim: 1. An aqueous coating composition for providing the surface of an object with a durable hydrophilic coating comprising: a) a multifunctional modified polyurethane carrier dispersed or emulsified in water, in a concentration from about 0.5 to about 15 wt %, based on the total weight of the coating composition, wherein said carrier forms a polymeric matrix upon drying or curing said coating composition; b) a hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer derived from N-vinylpyrrolidone, in a concentration from about 0.001 to about 10 wt %, based on the total weight of the coating composition; c) a multifunctional aqueous colloidal metal oxide, in a concentration from about 0.01 to about 25 wt %, based on the total weight of the coating composition; and d) a multifunctional crosslinker; wherein a coating of said composition is a durable hydrophilic coating upon drying or curing said coating. 2. The coating composition according to claim 1, wherein the multifunctional aqueous colloidal metal oxide is derived from a metal selected from the group consisting of aluminum, silicon, titanium, zirconium, zinc, tin, silver and combinations thereof. 3. The coating composition according to claim 2, wherein said multifunctional aqueous colloidal metal oxide is a combination of colloidal alumina and silica having a ratio of about 1:10. 4. The coating composition according to claim 1, wherein the colloidal metal oxide is selected from the group consisting of an aluminate, silicate, titanate, zincate, stannate, argentite, aluminum silicate, aluminum titanate, zirconate, zircoaluminate and a combination thereof. 5. The coating composition according to claim 1, wherein the multifunctional crosslinker is a multifunctional compound of a type selected from the group consisting of aziridine, carbodiimide, oxirane, alcohol, glycydyl ether, glycidyl ester, carboxyl acid, amine, epoxide, vinyl sulfone, amide, allyl, prepolymeric resins of said multifunctional compounds and combinations thereof. 6. The coating composition according to claim 5, wherein the multifunctional aziridine is selected from the group consisting of trimethylolpropane tri-[.beta.-(N-aziridinyl)-propionate]; 2,2-bishydroxymethyl butanoltris[3-(1-aziridine) propionate]; aziridine-2-methylol acrylate; aziridine-2-methylol methacrylate; N-(2-aziridinyl) methylacrylamide; N-(2-aziridinyl)-methylmethacrylamide; 1-(aziridin-2-yl)-2-oxabut-3-ene; 4-(aziridin-2-yl)-but-1-ene; 5-(aziridin-2-yl)-pent-1-ene; prepolymeric resins of said aziridine compounds; and combinations thereof. 7. The coating composition according to claim 5, wherein the multifunctional carbodiimide is selected from the group consisting of a carbodiimide, prepolymeric resins of said multifunctional carbodiimides and combinations thereof. 8. The coating composition according to claim 5, wherein the multifunctional alcohol is selected from the group consisting of glycerin; pentaerythritol; pentaerythritol ethoxylate; pentaerythritol propoxylate; ethylene glycol; diethylene glycol; triethylene glycol; tetraethylene glycol; polyethylene glycol; 1,2,3-propanetriol; polyglycerol; propylene glycol; 1,2-propanediol; 1,3-propanediol; trimethylol propane; diethanolamine; triethanolamine; polyoxypropylene-oxyethylene-oxypropyle block copolymer; sorbitan fatty acid esters, polyoxyethylene sorbitan fatty acid esters; sorbitol; a polyglycidyl ether compound; and combinations thereof. 9. The coating composition according to claim 8, wherein said polyglycidyl ether compound is selected from the group consisting of ethylene glycol diglycidyl ether, polyethylene glycol diglycidyl ether, glycerol polyglycidyl ether, diglycerol polyglycidyl ether, polyglycerol polyglycidyl ether, sorbitol polyglycidyl ether, pentaerythritol polyglycidyl ether, propylene glycol diglycidyl ether, propylene glycol diglycidyl ether and a combination thereof. 10. The coating composition according to claim 5, wherein the multifuncional amine is selected from the group consisting of a melamine, hexamethylendiamine, hexamethylentetramine and guanidine. 11. The coating composition according to claim 1, further comprising an auxiliary agent for performance enhancement of the aqueous coating composition and/or the resulting hydrophilic coating of the said coated surface. 12. The coating composition according to claim 11, wherein the auxiliary agent is selected from the group consisting of a surfactant, a wetting agent, an emulsifier, a dye, pigment, colorant, UV absorber, radical scavenger, anti-oxidant, anti-corrosion agent, optical brightener, fluorescers, bleaches, bleach activators, bleach catalysts, non-activated enzymes, enzyme stabilizing systems, chelants, coating aid, metal catalyst, metal oxide catalyst, organometallic catalyst, filmforming promoter, hardener, linking accelerator, flow agent, leveling agent, defoaming agent, lubricant, matte particle, rheological modifier, thickener, conductive or non-conductive metal oxide particle, magnetic particle, anti-static agent, pH control agents, perfumes, biocide, pesticide, anti-fouling agent, antimicrobial agent, aligicide, bactericide, germicides, disinfectant, fungicide, bio-effecting agent, vitamin, drug, therapeutic agent and a combination thereof. 13. The coating composition according to claim 12, wherein said biocide is selected from the group consisting of parabens, formaldehyde releasers, haloalkyls, haloalkynyls, alkyl acids, aryl acids, isothiazolinons, quats, zinc oxide, zinc organics, iodine, povidone-iodine, chlorhexidine, bronopol, triclosan, clotrimazol, propiconazole, tebuconazole, miconazole, tolnaphtate, clioquinol, colloidal silver, silver complexes, silver salts and combinations thereof. 14. The coating composition according to claim 12, wherein said antimicrobial agent is selected from the group consisting of antibiotics, antiseptics, disinfectants, tetracyclines, rifamycins, rapamycin, macrolides, penicilins, cephalosporins, beta-lactam antibiotics, aminoglycosides, chloramphenicol, sufonamides, glycopeptides, quinolones, ciprofloxacin, fusidic acid, trimethoprim, metronidazole, clindamycin, mupirocin, polyenes, azotes, fluconazole and beta-lactam inhibitors. 15. A coating composition according to claim 12, wherein said therapeutic agent is selected from the group consisting of analgesics, anti-inflammatory agents, topical antipuritics, anti-itch agents, steroids, dermatological agents, anthralin coal tar extracts, keratolytic agents, local anaesthetic agents, anti-acne agents, vitamin A and wart removing agents. 16. A coating composition according to claim 12, wherein said drug is selected from the group consisting of taxol, paclitaxel, dexamethasone, heparin, tacrolimus, everolimus, cyclosporins, sirolimus, aspirin, hirudin, a nitric oxide releasing drug, angiopeptin, enoxaprin, pyrolytic carbon, silicon carbide, and combinations thereof. 17. The coating composition according to claim 11, wherein the auxiliary agent includes a radiopaque agent. 18. The coating composition according to claim 17, wherein the radiopaque agent is up to 75% by weight of the solids of the coating composition. 19. A coating composition according to claim 17, wherein said radiopaque agent is selected from the group consisting of diatrizoate, iothalamate, metrizoate, iodipamide, triiodobenzoic acid, iothalamic acid, iopanoic or iodopanoic acid, triiodophenyl acid, iodothalamic acid, iodine, iodides, bromine, perfluorooctyl bromide, barium sulfate, samarium, erbium, bismuth trioxide, titanium oxide, zirconium oxide, gold, platinum, silver, tantalum, niobium, tungsten, gold, titanium, iridium, platinum, rhenium and combinations thereof. 20. The coating composition according to claim 11, wherein the concentration of the auxiliary agent is from about 0.001% to about 10% by weight. 21. The coating composition according to claim 20, wherein the concentration of the auxiliary agent is from about 0.01% to about 5% by weight. 22. The coating composition according to claim 11, wherein the auxiliary agent includes at least one solvent selected from the group consisting of alcohols, alkylketones, arylalkylketones, ketoalcohols, cyclic ketones, heterocyclic ketones, ethers, cyclic ethers, esters, and combinations thereof. 23. The coating composition according to claim 11, wherein the auxiliary agent is chemically bonded and/or physically incorporated into the aqueous coating composition or incorporated into the finished hydrophilic coating on the surface of the object. 24. The coating composition according to claim 1, wherein said coating composition is in the form of a gel. 25. The coating composition according to claim 24, wherein said gel is used for topical transdermal application as a medical gel for wound dressing in human or animal application. 26. The coating composition according to claim 1, wherein the hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer concentration is from about 0.25% to about 10% by weight. 27. The coating composition according to claim 1, wherein the multifunctional aqueous colloidal metal oxide concentration is from about 0.25% to about 20% by weight. 28. The coating composition according to claim 1, wherein the cross linker concentration is from about 0.001 to about 8% by weight. 29. The coating composition according to claim 28, wherein the cross linker concentration is from about 0.01% to about 3% by weight. 30. The coating composition according to claim 1, further comprising at least one organic solvent in an amount from 0.5% to 50% and water in an amount from 1% to 95% by weight. 31. The coating composition according to claim 1, wherein the surface of the object consists of a metal, metal alloy, plastic, glass, human skin or animal skin. 32. The coating composition according to claim 1, wherein said hydrophilic coating, formed by coating said surface with said coating composition and drying or curing said composition, exhibits improved water wetting ability after rewetting said dried or cured coating. 33. The coating composition according to claim 32, wherein said coating exhibits a reduction in contact angle after being wetted with water compared to the dry coating. 34. The coating composition according to claim 32, wherein said hydrophilic coating, formed by coating said surface with said coating composition and drying or curing said composition, exhibits a reduction in friction compared to the uncoated surface when each are wetted with water. 35. The coating composition according to claim 34, wherein said reduction is about 95%. 36. The coating composition according to claim 34, wherein said hydrophilic coating retains its lubricity after repeated moistening and drying cycles. 37. The coating composition according to claim 1, wherein said colloidal metal oxide is present in an amount sufficient to provide a coating having-improved lubricity when wetted compared to a similar coating without said colloidal metal oxide. 38. The coating composition according to claim 1, wherein said colloidal metal oxide is present in an amount sufficient to provide a coating having inreased-aqueous solution uptake compared to a similar coating without said colloidal metal oxide. 39. The coating composition according to claim 38, wherein said aqueous solution uptake is increased by about 100 wt %. 40. A medical device for introduction into a human or animal body, comprising a hydrophilic coating on at least one surface of said device, said hydrophilic coating formed from-an aqueous coating composition-comprising: a) a multifunctional polymeric carrier dispersed or emulsified in water, in a concentration from about 0.5 to about 15 wt %, based on the total weight of the coating composition, wherein said carrier forms a polymeric matrix upon drying or curing said coating composition; b) a hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer, in a concentration from about 0.001 to about 25 wt %, based on the total weight of the coating composition; c) a multifunctional aqueous colloidal metal oxide, in a concentration from about 0.01 to about 25 wt %, based on the total weight of the coating composition; and d) a multifunctional crosslinker; wherein a coating of said composition is a durable hydrophilic coating upon drying or curing said coating. 41. The coating composition according to claim 40, wherein the dispersed or emulsified multifunctional polymeric carrier is selected from the group consisting of a modified polymeric urethane, urea, ester, ether, carbonate, vinyl, acrylic, methacrylic, alkyd, acrylamide, maleic anhydride, an epoxy prepolymer and combinations thereof. 42. The coating composition according to claim 40, wherein the hydrophilic organic monomer, oligomer, prepolymer or copolymer is derived from vinyl alcohol, N-vinylpyrrolidone, N-vinyl lactam, acrylamide, amide, styrenesulfonic acid, combination of vinylbutyral and N-vinylpyrrolidone, hydroxyethyl methacrylate, acrylic acid, vinylmethyl ether, vinylpyridylium halide, melamine, maleic anhydride/methyl vinyl ether, vinylpyridine, ethyleneoxide, ethyleneoxide ethylene imine, glycol, vinyl acetate, vinyl acetate/crotonic acid, methyl cellulose; ethyl cellulose, carboxymethyl cellulose, hydroxyethyl cellulose, hydroxypropyl cellulose, hydroxymethyl ethyl cellulose, hydroxypropylmethyl cellulose, cellulose acetate, cellulose nitrate, starch, gelatin, albumin, casein, gum, alginate, hydroxyethyl (meth)acrylate, hydroxypropyl (meth)acrylate, ethylene glycol (meth)acrylates, N-alkyl (meth) acrylamides, N,N-dialkyl (meth)acrylamides, N-hydroxyalkyl (meth)acrylamide polymers, N,N-dihydroxyalkyl (meth)acrylamide polymers, ether polyols, polyethylene oxide, polypropyleneoxide,poly(vinyl ether), alkylvinyl sulfones, alkylvinylsulfone-acrylates or a combination thereof. 43. The medical device according to claim 40, wherein the device is at least partially made of a metal or metal alloy selected from the group consisting of stainless steel, nickel, nickel-cobalt, titanium, NiTi, tantalum, nitinol, rare earth metal, silver, gold, platinum; tungsten, combinations thereof and alloys or plated articles thereof. 44. The medical device according to claim 40, wherein the device is at least partially made of a plastic material selected from the group consisting of polyurethane, polycarbonate, polyethers, polyesters, polyvinyl chloride, polystyrene, polyethylene, polyvinyl acetate, silicone rubbers, rubber latex, polyester-polyether copolymers, ethylene methacrylates, polymeric phthalates, silicone, natural and synthetic rubbers, nylon, polyamide, fluorinated plastic materials and combinations thereof. 45. The medical device according to claim 40, wherein the device is at least partially made of glass. 46. The medical device according to claim 45, wherein said glass is selected from the group consisting of optical glasses, optical lenses, polarizing glasses, mirrors, optical mirrors, prisms and quartz glass. 47. The medical device according to claim 40, wherein said hydrophilic coating is formed by applying said aqueous coating composition to the surface of said device by dipping, brushing, flooding, spraying, electrolytic depositing, electrostatic spraying, electroplating, vacuum treatment, pressure treatment or combinations thereof. 48. The medical device according to claim 40, wherein said device is in the form of a tube, capillary, wire, sheet, coil, rod, lattice or network of wires. 49. The medical device according to claim 40, wherein the device is a surgical rod, a guidewire, a guidewire tube, a coiled guiding tube, a catheter, a coiled catheter, an expendable or non-expendable stent, an electrodal coil, a needle, a blade, a metallic medical device, a tablet, a capsule, a fiber, a wound dressing, a suture thread, a balloon, a foil, a guiding tube, an ocular lens delivery device, or a wound drain. 50. The medical device according to claim 40, wherein said hydrophilic coating is non-toxic and non-deleterious to living tissue. 51. The medical device according to claim 40, wherein said hydrophilic coating is directly coated on said at least one surface of said device. 52. The medical device according to claim 40, wherein said at least one surface of said device is coated with a primer and said hydrophilic. coating is directly coated on said primer. 53. The medical device according to claim 40, wherein said coated surface exhibits a reduction in friction compared to the uncoated surface when each are wetted with water. 54. The medical device according to claim 53, wherein said coated surface retains its lubricity after repeated moistening and drying cycles. 55. The medical device according to claim 53, wherein said coated surface has a reduction in friction of about 95% when wet compared to the uncoated surface. 56. The-medical device according to claim 40, wherein said multifunctional polymeric carrier is a modified polymeric polyurethane and said hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer is derived from N-vinylpyrrolidone. 57. The medical device according to claim 56, wherein said colloidal metal oxide is selected from the group consisting of an aluminate, silicate, titanate, zincate, stannate, argentite, aluminums silicate, aluminum titanate, zirconate, zircoaluminate and a combination thereof. 58. The medical device according to claim 40, wherein the multifunctional crosslinker is a multifunctional compound of a type selected from the group consisting of aziridine, carbodiimide, oxirane, alcohol, glycydyl ether, glycidyl ester, carboxyl acid, amine, epoxide, vinyl sulfone, amide, allyl, prepolymeric resins of said multifunctional compounds and combinations thereof. 59. The medical device according to claim 40, wherein the coating composition further comprises an auxiliary agent selected from the group consisting of a surfactant, a wetting agent, an emulsifier, a dye, pigment, colorant, UV absorber, radical scavenger, anti-oxidant, anti-corrosion agent, optical brightener, fluorescers, bleaches, bleach activators, bleach catalysts, non-activated enzymes, enzyme stabilizing systems, chelants, coating aid, metal catalyst, metal oxide catalyst, organometallic catalyst, filmforming promoter, hardener, linking accelerator, flow agent, leveling agent, defoaming agent, lubricant, matte particle, rheological modifier, thickener, conductive or non-conductive metal oxide particle, magnetic particle, anti-static agent, pH control agents, perfumes, biocide, pesticide, anti-fouling agent antimicrobial agent, aligicide, bactericide, germicides, disinfectant, fungicide, bio-effecting agent, vitamin, drug, therapeutic agent and a combination thereof. 60. The medical device according to claim 40, wherein the hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer concentration is from about 0.25% to about 10% by weight. 61. The medical device according to claim 40, wherein the multifunctional aqueous colloidal metal oxide concentration is from about 0.25% to about 20% by weight. 62. An aqueous coating composition for providing the surface of an object with a durable antifog coating comprising: a) a multifunctional modified polyurethane carrier dispersed or emulsified in water, in a concentration from about 0.5 to about 15 wt %, based on the total weight of the coating composition, wherein said carrier forms a polymeric matrix upon drying or curing said coating composition; b) a hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer derived from N-vinylpyrrolidone, in a concentration from about 0.001 to about 10 wt %, based on the total weight of the coating composition; c) a multifunctional aqueous colloidal metal oxide, in a concentration from about 0.01 to about 25 wt %, based on the total weight of the coating composition; and d) a multifunctional crosslinker; wherein a coating of said composition is a durable antifog coating upon drying or curing said coating. 63. The coating composition according to claim 62, wherein the multifunctional aqueous colloidal metal oxide is derived from a metal selected from the group consisting of aluminum, silicon, titanium, zirconium, zinc, tin, silver and a combination thereof. 64. The coating composition according to claim 63, wherein said multifunctional aqueous colloidal metal oxide is a combination of colloidal alumina and silica having a ratio of about 1:10. 65. The coating composition according to claim 62, wherein the colloidal metal oxide is selected from the group consisting of an aluminate, silicate, titanate, zincate, stannate, argentite, aluminum silicate, aluminum titanate, zirconate zircoaluminate, and a combination thereof. 66. The coating composition according to claim 62, wherein the multifunctional crosslinker is a multifunctional compound of a type selected from the group consisting of aziridine, carbodiimide, oxirane, alcohol, glycydyl ether, glycidyl ester, carboxyl, amine, epoxide, vinyl sulfone, amide, allyl, prepolymeric resins of said multifunctional compounds and combinations thereof. 67. The coating composition according to claim 66, wherein the multifunctional aziridine compound is selected from the group consisting of trimethylolpropane tri-[.beta.-(N-aziridinyl)-propionate]; 2,2-bishydroxymethyl butanoltris[3-(1-aziridine) propionate]; aziridine-2-methylol acrylate; aziridine-2-methylol methacrylate; N-(2-aziridinyl) methylacrylamide; N-(2-aziridinyl)-methylmethacrylamide; 1-(aziridin-2-yl)-2-oxabut-3-ene; 4-(aziridin-2-yl)-but-1-ene; 5-(aziridin-2-yl)-pent-1-ene; prepolymeric resins of said aziridine compounds; and combinations thereof. 68. The coating composition according to claim 66, wherein the multifunctional carbodiimide is selected from the group consisting of a carbodiimide, prepolymeric resins of said multifunctional carbodiimides and combinations thereof. 69. The coating composition according to claim 66, wherein the multifunctional alcohol is selected from the group consisting of glycerin, pentaerythritol, ethylene glycol, diethylene glycol, triethylene glycol, tetraethylene glycol, polyethylene glycol; 1,2,3-propanetriol, polyglycerol, propylene glycol, 1,2-propanediol, 1,3-propanediol, trimethylol propane, diethanolamine, triethanolamine, polyoxypropylene oxyethylene-oxypropyle block copolymer, sorbitan fatty acid esters, polyoxyethylene sorbitan fatty acid esters, pentaerythritol derivatives, sorbitol, a polyglycidyl ether compound and combinations thereof. 70. The coating composition according to claim 69, wherein said polyglycidyl ether compound is selected from the group consisting of ethylene glycol diglycidyl ether, polyethylene glycol diglycidyl ether, glycerol polyglycidyl ether, diglycerol polyglycidyl ether, polyglycerol polyglycidyl ether, sorbitol polyglycidyl ether, pentaerythritol polyglycidyl ether, propylene glycol diglycidyl ether, and propylene glycol diglycidyl ether and a combination thereof. 71. The coating composition according to claim 66, wherein said multifunctional amine is selected from the group consisting of a melamine, hexamethylendiamine, hexamethylentetramine, and guanidine. 72. The coating composition according to claim 62, further comprising at least one auxiliary agent for performance enhancement of the aqueous coating composition and/or the resulting hydrophilic coating of said coated surface. 73. The coating composition according to claim 72, wherein the auxiliary agent is selected from the group consisting of a surfactant, a wetting agent, an:emulsifier, a dye, pigment, colorant, UV absorber, radical scavenger, anti-oxidant, anti-corrosion agent, optical brightener, fluorescers, bleaches, bleach activators, bleach catalysts, non-activated enzymes, enzyme stabilizing systems, chelants, coating aid, flow agent, leveling agent, defoaming agent, lubricant, matte particle, rheological modifier, thickener, conductive or non-conductive metal oxide particle, magnetic particle, anti-static agent, pH control agents; perfumes, biocide, pesticide, anti-fouling agent, algicide, antimicrobial agent, bactericide, germicides, disinfectant, fungicide, bio-effecting agent, vitamin and a combination thereof. 74. The coating composition according to claim 72, wherein said auxiliary agent includes a radiopaque agent. 75. The coating composition according to claim 74, wherein the radiopaque agent is up to 75% of the solids of the coating composition. 76. The coating composition according to claim 74, wherein said radiopaque agent is selected from the group consisting of diatrizoate, iothalamate, metrizoate, iodipamide, triiodobenzoic acid, iothalamic acid, iopanoic acid, triiodophenyl acid, iodothalamic acid, iodine, iodides, bromine, perfluorooctyl bromide, barium sulfate samarium, erbium, bismuth trioxide, titanium oxide, zirconium oxide, gold, platinum, silver, tantalum, niobium, tungsten, gold, titanium, iridium, platinum, rhenium and combinations thereof. 77. A metal, plastic or glass object having enhanced x-ray and radar visibility combined with anti-fog and lubricious properties, comprising a hydrophilic coating on at least one surface of said objected, said hydrophilic coating formed from the aqueous coating composition of claim 76. 78. The object according to claim 77, wherein the object is selected from the group consisting of passenger balloons, weather balloons, small airplanes, RF-shields, small boats, lifebuoys, lifeboats and life rafts. 79. The coating composition according to claim 72, wherein the concentration of the auxiliary agent is from about 0.001% to about 10% by weight. 80. The coating composition according to claim 79, wherein the concentration of the auxiliary agent from about 0.01% to about 5% by weight. 81. The coating composition according to claim 62, wherein the hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer concentration is from about 0.25% to about 10% by weight. 82. The coating composition according to claim 62, wherein the multifunctional aqueous colloidal metal oxide concentration is from about 0.25% to about 20% by weight. 83. The coating composition according to claim 62, wherein the cross linker concentration is from about 0.001 to about 8% by weight. 84. The coating composition according to claim 83, wherein the cross linker, concentration is from about 0.01% to about 3% by weight. 85. The coating composition according to claim 62, wherein the composition further comprises an organic solvent in an amount from 0. 5% to 50% and water in an amount from 1% to 95% by weight. 86. The coating composition according to claim 85, wherein said organic solvent is selected from the group consisting of alcohols, alkylketones, arylalkylketones, ketoalcohols, cyclic ketones, heterocyclic ketones, ethers, cyclic ethers, esters and combinations thereof. 87. The coating composition according to claim 62, wherein said antifog coating, formed by coating said surface with said coating composition and drying or curing said composition, exhibits improved water wetting ability after rewetting said coating. 88. The coating composition according to claim 87, wherein said coating exhibits a reduction in contact angle after being wetted with water compared to the dry coating. 89. The coating composition according to claim 62, wherein said antifog coating, formed by coating said surface with said coating composition and drying or curing said composition, exhibits a reduction in friction compared to the uncoated surface when each are wetted with water. 90. The coating composition according to claim 89, wherein said reduction is about 95%. 91. The coating composition according to claim 89, wherein said antifog coating retains its lubricity after repeated moistening and drying cycles. 92. The coating composition according to claim 62, wherein said colloidal metal oxide is present in an amount sufficient to provide a coating having improved lubricity when wetted compared to a similar coating without said colloidal metal oxide. 93. The coating composition according to claim 62, wherein said colloidal metal oxide is present in an amount sufficient to provide a coating having inreased-aqueous solution uptake compared to a similar coating without said colloidal metal oxide. 94. The coating composition according to claim 93, wherein said-aqueous solution uptake is increased by about 100 wt %. 95. An object having anti-fog properties, comprising an object having a hydrophilic coating on at least one surface of said object which has antifog properties, said hydrophilic coating formed from an aqueous coating composition comprising: a) a multifunctional modified polyurethane carrier dispersed or emulsified in water, in a concentration from about 0.5 to about 15 wt %, based on the total weight of the coating composition, wherein said carrier forms a polymeric matrix upon drying or curing said coating composition; a hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer derived from N-vinylpyrrolidone, in a concentration from about 0.001 to about 10 wt %, based on the total weight of the coating composition; c) a multifunctional aqueous colloidal metal oxide, in a concentration from about 0.01 to about 25 wt %, based on the total weight of the coating composition; and d) a multifunctional crosslinker; wherein a coating of said composition is a durable antifog coating upon drying or curing said coating. 96. The object according to claim 95, wherein the surface of said object consists of a metal, metal alloy, plastic or glass or a combination thereof, prior to coating with said coating composition, and has anti-fog properties, upon coating with said coating composition. 97. The object according to claim 96, wherein said surface is lubricious, upon coating with said coating composition. 98. The object according to claim 97, wherein said coated surface exhibits a reduction in friction compared to the uncoated surface when each are wetted with water. 99. The object according to claim 98, wherein said coated surface retains its lubricity after repeated moistening and drying cycles. 100. The object according to claim 98, wherein said lubricious surface has a reduction in friction of about 95% when wet compared to the uncoated surface. 101. The object according to claim 96, wherein said metal or metal alloy is made of a metal or metal alloy selected from the group consisting of aluminum, magnesium, beryllium, iron, zinc, carbon steel, stainless steel, nickel, nickel-cobalt, chromium, titanium, tantalum, rare earth metal, silver, gold, platinum, tungsten, vanadium, cupper, brass, bronze and combinations thereof. 102. The object according to claim 96, wherein said plastic is a material selected from the group consisting of transparent or non-transparent polyurethane, polycarbonate, polyethers, polyesters, polyvinyl chloride, polystyrene, polyethylene, polyvinyl acetate, silicone rubbers, rubber latex, polyester-polyether copolymers, ethylene methacrylates, polyphthalates, silicone; natural and synthetic rubbers, nylon, polyamide, fluorinated-plastic materials thereof and combinations thereof. 103. The object according to claim 102, wherein said plastic is polycarbonate and wherein said coated object can be recycled without yellowing, when 30% recycled material of said object is combined with 70% virgin polycarbonate and the combination is recycled. 104. The object according to claim 96, wherein said glass is selected from the group consisting of optical glasses, optical lenses, polarizing glasses, mirrors, optical mirrors, prisms, quartz glass and ceramics. 105. The object according to claim 96, wherein said hydrophilic coating prevents the formation of water droplets on the surface of the metal, metal alloy, plastic or glass object and provides the surface of the objects with anti-fog, anti-glare and lubricious properties. 106. The object according to claim 96, wherein the object having a metal or metal alloy surface includes freezer doors, green house construction, mirrors, condenser pipes, cooling plates, cooling fins, ship hulls, underwater vehicles, underwater projectiles or airplanes. 107. The object according to claim 96, wherein the object having a plastic surface includes face shields, helmet shields, swim goggles, surgeon face shields, food packaging plastic foil, greenhouse walls, greenhouse roofs, mirrors, wind shields, underwater moving objects, airplane window shields or passenger air-balloons. 108. The object according to claim 96, wherein the object having a glass surface includes window glasses, greenhouse glasses, glass sheets, face shields, optical glasses, optical lenses polarizing glasses, mirrors, optical mirrors, prisms, quartz glass, parabolic antennas, automobile head beam light glasses, automobile windshields, airplane control light glasses or runway lights. 109. The object according to claim 95, wherein said hydrophilic coating is formed by applying said aqueous coating composition to the surface of said object by dipping, brushing, roller-coating, flooding, spraying, electrolytic depositing, electrostatic spraying, electroplating, vacuum treatment, pressure treatment or combination thereof. 110. The object according to claim 95, wherein said hydrophilic coating is directly coated on said at least one surface of said object. 111. The object according to claim 95, wherein said at least one surface of said object is coated with a primer and said hydrophilic coating is directly coated on said primer. 112. The object according to claim 72, wherein said colloidal metal oxide is selected from the group consisting of an aluminate, silicate, titanate, zincate, stannate, argentite, aluminum silicate, aluminum titanate, zirconate, zircoaluminate and a combination thereof. 113. The object according to claim 95, wherein them multifunctional crosslinker is a multifunctional compound of a type selected from the group consisting of aziridine, carbodiimide, oxirane, alcohol, glycydyl ether, glycidyl ester, carboxyl acid, amine, epoxide, vinyl sulfone, amide, allyl, prepolymeric resins of said multifunctional compounds and combinations thereof. 114. The object according to claim 95, wherein the coating composition further comprises an auxiliary agent selected from the group consisting of a surfactant, a wetting agent, an emulsifier, a dye, pigment, colorant, UV absorber, radical scavenger, anti-oxidant, anti-corrosion agent, optical brightener, fluorescers, bleaches, bleach activators, bleach catalysts, non-activated enzymes, enzyme stabilizing systems, chelants, coating aid, metal catalyst, metal oxide catalyst, organometallic catalyst, filmforming promoter, hardener, linking accelerator, flow agent, leveling agent, defoaming agent, lubricant, matte particle, rheological modifier, thickener, conductive or non-conductive metal oxide particle, magnetic particle, anti-static agent, pH control agents, perfumes, biocide, pesticide, anti-fouling agent, antimicrobial agent, aligicide, bactericide, germicides, disinfectant, fungicide, bio-effecting agent, vitamin, drug, therapeutic agent and a combination thereof. 115. The object according to claim 95, wherein the hydrophilic water-soluble organic monomer, oligomer, prepolymer, polymer or copolymer concentration is from about 0.25% to about 10% by weight. 116. The object according to claim 95, wherein the multifunctional aqueous colloidal metal oxide concentration is from about 0.25% to about 20% by weight.

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Lambert Hans R. (Askim SEX), Medical article having a hydrophilic coating.
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Lennox Charles D. (Hudson NH) Beaudet Stephen P. (Lexington MA), Medical treatment of deeply seated tissue using optical radiation.
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Norton William J. (Berkeley Heights NJ), Medical tubing having exterior hydrophilic coating for microbiocide absorption therein and method for using same.
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Kim Jung J. (Anyang-shi KRX) Lee Woo Y. (Anyang-shi KRX) Ahn Jong W. (Seoul KRX) Han Sang H. (Suwon-shi KRX), Medicinal adhesive for percutaneous administration.
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Autant Pierre,FRX ; Selles Jean-Philippe,FRX ; Soula Gerard,FRX, Medicinal and/or nutritional microcapsules for oral administration.
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Huprich Carl A. (22333 County Rd. 62 North Robertsdale AL 36567), Method and composition for coating a wound with polyether polyurethane.
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Buckman Stanley J. (Memphis TN) Lang Rudolf F. (Ghent TN BE) Mishler Michael L. (Memphis TN), Organo-silica polymers.
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Cercek Boris (4318 Camphor Ave. Yorba Linda CA 92686) Cercek Lea (4318 Camphor Ave. Yorba Linda CA 92686), Provision of density specific blood cells for the structuredness of the cytoplasmic matrix (SCM) test.
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Khudyakov Igor V. ; Medford George F., Radiation curable hardcoat compositions possessing anti-fog properties.
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Jonathan S. Stinson ; Claude O. Clerc, Radiopaque markers and methods of using the same.
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Shults, Mark C.; Updike, Stuart J.; Rhodes, Rathbun K., Device and method for determining analyte levels.
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Shults, Mark C.; Updike, Stuart J.; Rhodes, Rathbun K., Device and method for determining analyte levels.
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Shults, Mark C.; Updike, Stuart J.; Rhodes, Rathbun K., Device and method for determining analyte levels.
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Shults, Mark C.; Updike, Stuart J.; Rhodes, Rathbun K., Device and method for determining analyte levels.
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Shults, Mark C.; Updike, Stuart J.; Rhodes, Rathbun K.; Gilligan, Barbara J.; Tapsak, Mark A., Device and method for determining analyte levels.
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Shults, Mark C.; Updike, Stuart J.; Rhodes, Rathbun K.; Gilligan, Barbara J.; Tapsak, Mark A., Device and method for determining analyte levels.
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Wochele, Matthias, Drop dispenser.
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Niitsu, Yoshiro; Yu, Lei; Liu, Jian; Zhao, Gang; Ma, Nianchun; Van, Sang, Drug carriers.
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Bjork, Jr., Robert L., Drug-eluting coronary artery stent coated with anti-platelet-derived growth factor antibodies overlaying extracellular matrix proteins with an outer coating of anti-inflammatory (calcineurin inhibitor) and/or anti-proliferatives.
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Brister, Mark C.; Petisce, James R.; Simpson, Peter C., Dual electrode system for a continuous analyte sensor.
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Simpson, Peter C.; Brauker, James H.; Goode, Paul V.; Kamath, Apurv U.; Petisce, James R.; Woo, Kum Ming; Nicholas, Melissa A.; Boock, Robert J.; Rixman, Monica A.; Burd, John; Rhodes, Rathbun K.; Tapsak, Mark A., Dual electrode system for a continuous analyte sensor.
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Simpson, Peter C.; Brauker, James H.; Goode, Paul V.; Kamath, Apurv U.; Petisce, James R.; Woo, Kum Ming; Nicholas, Melissa A.; Boock, Robert J.; Rixman, Monica A.; Burd, John; Rhodes, Rathburn K.; Tapsak, Mark A., Dual electrode system for a continuous analyte sensor.
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Simpson, Peter C.; Petisce, James R.; Carr-Brendel, Victoria E.; Brauker, James H., Electrode systems for electrochemical sensors.
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Eramo, Jr., Lincoln; Campbell, James; Matlin, Paul, Enhanced durability of hydrophilic coatings.
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Kahle, Henry; Strokosz, Arkadiusz A.; Taylor, Scott V., First-entry trocar system.
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Kahle, Henry; Strokosz, Arkadiusz A.; Taylor, Scott V., First-entry trocar system.
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Kahle, Henry; Strokosz, Arkadiusz; Taylor, Scott V., First-entry trocar system.
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Tice, Thomas R., Flexible implantable composites and implants comprising same.
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Pekala, Richard W.; Lee, Daniel K.; Emanuel, James E.; Waterhouse, Robert; Wood, Weston J.; Wimer, Andrew, Freestanding, dimensionally stable microporous webs.
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Belcheva, Nadya, Functionalized inclusion complexes as crosslinkers.
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Elton, Richard K., Hydrophilic coating.
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Petisce, James R.; Brister, Mark; Shults, Mark; Brauker, James H.; Neale, Paul V., Implantable analyte sensor.
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Sahatjian, Ronald A.; Tan, Francisca; Mather, Patrick T.; Liu, Changdeng; Campo, Cheryl J., Implantable medical devices.
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Miller, Kathleen M; Sydney, Gregory T; Geitz, Kurt; Dayton, Peter L; Sahatjian, Ronald A, Implantable or insertable medical device resistant to microbial growth and biofilm formation.
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Tice, Thomas R., Implantable suction cup composites and implants comprising same.
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Albrecht, Jeremy J.; Johnson, Gary M.; Brustad, John R., Insufflating access system.
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Albrecht, Jeremy J.; Brustad, John R.; Taylor, Scott V.; Johnson, Gary M.; Hilal, Nabil, Insufflating optical surgical instrument.
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Albrecht, Jeremy J.; Brustad, John R.; Taylor, Scott V.; Johnson, Gary M.; Hilal, Nabil, Insufflating optical surgical instrument.
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Kamath, Apurv U.; Yang, Richard C.; Leach, Jacob S.; Quintana, Nelson, Integrated medicament delivery device for use with continuous analyte sensor.
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Kamath, Apurv Ullas; Yang, Richard C.; Leach, Jacob S.; Quintana, Nelson, Integrated medicament delivery device for use with continuous analyte sensor.
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Jeong, Sang-Ok; Kim, Wan-Ouk; Lee, Young-Kyong, Lightweight helmet shell and method for manufacturing the same.
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Michal, Eugene T.; Lerner, Daniel J.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Lerner, Daniel J.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Lerner, Daniel J.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Lerner, Daniel J.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Lerner, Daniel J.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Lerner, Daniel J.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Lerner, Daniel J.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Michal, Eugene T.; Pollman, Matthew J., Local delivery of water-soluble or water-insoluble therapeutic agents to the surface of body lumens.
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Hart, Charles C., Low-profile surgical universal access port.
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Yan, John; Huang, Howard; Bhat, Vinayak D., Luminal prostheses and methods for coating thereof.
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Kangas, Steve; Feng, James; Chen, Yen-Lane; Zeng, Maggie, Medical device with crystalline drug coating.
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Hoffmann, Erika; Horres, Roland; Faust, Volker; Schreiber, Helmut; Von Holst, Armin; Hoffmann, Michael, Medical product for treating stenosis of body passages and for preventing threatening restenosis.
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Do, Bao Trong; MacDonald, John Gavin; Kim, Jaeho, Metal-modified silica particles for reducing odor.
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Ding, Ni, Methacrylate copolymers for medical devices.
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Ding, Ni, Methacrylate copolymers for medical devices.
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Hippensteel, Gregory M.; Peek, Lawrence F.; Anderson, Jeffrey P.; Gorhe, Devendra; Allen, Steve M., Method for bonding a tantalum structure to a cobalt-alloy substrate.
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Hippensteel, Gregory M.; Peek, Lawrence F.; Anderson, Jeffrey P.; Gorhe, Devendra; Allen, Steve M.; Scrafton, Joel G.; Harmon, Casey, Method for bonding a tantalum structure to a cobalt-alloy substrate.
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Döker, Andreas; Wanka, Thomas; Wilczek, Michael, Method for coating elongate objects.
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Dean, Jennifer; Hoeks, Theodorus Lambertus, Method for making fog resistant thermoplastic articles and articles made therefrom.
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Nicholson, Nolan Andrew; Hsing, Alexander W.; Jackson, Philip, Method for modifying local properties of materials.
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MacDonald, John Gavin; McGrath, Kevin P.; Kuznetsov, Irene; Kim, Jaeho; Huang, Lei, Method for reducing odor using colloidal nanoparticles.
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McGrath, Kevin P.; Do, Bao Trong; MacDonald, John Gavin, Method for reducing odor using metal-modified particles.
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Do,Bao Trong; MacDonald,John Gavin; Kim,Jaeho, Method for reducing odor using metal-modified silica particles.
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Li, Shijian; Kolics, Artur K.; Arunagiri, Tiruchirapalli N., Methods and solutions for preventing the formation of metal particulate defect matter upon a substrate after a plating process.
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Gilman, Thomas H., Methods of applying a hydrophilic coating to a substrate, and substrates having a hydrophilic coating.
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Gilman, Thomas H., Methods of applying a hydrophilic coating to a substrate, and substrates having a hydrophilic coating.
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Zeng, Maggie; Chen, Yen-Lane; Romanshek, Maura; Meyer, Erin, Methods of converting amorphous drug substance into crystalline form.
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Pillai, Lakshmikumar; LaDuca, Paul A.; Alavar, Frederich L.; LaDuca, Robert, Methods of transvascular retrograde access placement and devices for facilitating the placement.
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Pillai, Lakshmikumar, Methods of transvascular retrograde access placement and devices for facilitating therein.
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Bloembergen, Steven, Methods of using biobased latex binders for improved printing performance.
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Smith, Thomas S.; Sohi, Jasdeep; Bammel, Brian D.; Donaldson, Gregory T.; Comoford, John J.; McGee, John; Zimmerman, John L., Mildly alkaline thin inorganic corrosion protective coating for metal substrates.
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Askari, Syed H.; Whirley, Robert G., Non-degradable, low swelling, water soluble radiopaque hydrogel polymer.
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Kangas, Steve; Owens, Michael Sean; Patterson, Jon; Ekberg, Dave; Haun, Erik; Henderson, Eric; Foss, Aaron; Chen, Yen-Lane, Nucleation of drug delivery balloons to provide improved crystal size and density.
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Fish, Jeffrey Eldon; Greene, Sharon Linda; MacDonald, John Gavin; Kim, Jaeho, Odor absorbing extrudates.
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MacDonald, John Gavin; Martin, Stephanie M.; Kim, Jaeho, Odor-reducing quinone compounds.
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Pine, Jerrold Scott, Ophthalmic drop dispensing tip assembly.
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Vail, Neal K; Vaughn, Dana M, Oral rapamycin nanoparticle preparations.
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Vaughn, Dana M, Oral rapamycin preparation and use for stomatitis.
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Petisce, James R.; Tapsak, Mark A.; Simpson, Peter C.; Carr-Brendel, Victoria E.; Brauker, James H., Oxygen enhancing membrane systems for implantable devices.
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Petisce, James R.; Tapsak, Mark A.; Simpson, Peter C.; Carr-Brendel, Victoria E.; Brauker, James H., Oxygen enhancing membrane systems for implantable devices.
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Petisce, James R.; Tapsak, Mark A.; Simpson, Peter C.; Carr-Brendel, Victoria; Brauker, James H., Oxygen enhancing membrane systems for implantable devices.
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Petisce, James R.; Tapsak, Mark A.; Simpson, Peter C.; Carr-Brendel, Victoria; Brauker, James H., Oxygen enhancing membrane systems for implantable devices.
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Petisce, James; Tapsak, Mark A.; Simpson, Peter C.; Carr-Brendel, Victoria; Brauker, James H., Oxygen enhancing membrane systems for implantable devices.
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Petisce, James; Tapsak, Mark A.; Simpson, Peter C.; Carr-Brendel, Victoria; Brauker, James H., Oxygen enhancing membrane systems for implantable devices.
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Hayes, Peter C.; De Jong, Ralph Lewis, Paper coating or binding formulations and methods of making and using same.
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Hayes, Peter C.; De Jong, Ralph Lewis, Paper coating or binding formulations and methods of making and using same.
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Simpson, Peter C.; Boock, Robert J.; Wightlin, Matthew D.; Shults, Mark C., Particle-containing membrane and particulate electrode for analyte sensors.
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Simpson, Peter C.; Boock, Robert J.; Wightlin, Matthew D.; Shults, Mark C., Particle-containing membrane and particulate electrode for analyte sensors.
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Simpson, Peter C.; Boock, Robert J.; Wightlin, Matthew; Shults, Mark C., Particle-containing membrane and particulate electrode for analyte sensors.
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Simpson, Peter C.; Boock, Robert J.; Wightlin, Matthew; Shults, Mark C., Particle-containing membrane and particulate electrode for analyte sensors.
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Scheller, Bruno; Speck, Ulrich, Pharmaceutical-coated medical products, the production thereof and the use thereof.
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Konrad,Matthias; Klein,Dagmar; Peiffer,Herbert; Hilkert,Gottfried, Polyester film with hydrophilic coating, process for its production and its use.
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Boock, Robert J.; Rixman, Monica A.; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert J.; Rixman, Monica A.; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert J.; Rixman, Monica A.; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert J.; Rixman, Monica A.; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert J.; Rixman, Monica A.; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert; Rixman, Monica A.; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert; Rixman, Monica A.; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert; Swinney, Monica Rixman; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert; Swinney, Monica Rixman; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Boock, Robert; Swinney, Monica Rixman; Zhang, Huashi; Estes, Michael J.; Lawrence, Kristina, Polymer membranes for continuous analyte sensors.
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Iben, Dirk; Koch, Heino, Polymer mixture.
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Pacetti,Stephen Dirk, Polymers of fluorinated and hydrophilic monomers.
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Pacetti, Stephen Dirk, Polymers of fluorinated monomers and hydrophilic monomers.
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Pacetti,Stephen Dirk, Polymers of fluorinated monomers and hydrophilic monomers.
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Bracken, Ronald L.; Chen, Fung Bor; Tuck, Randy, Polyurethane/polyisoprene blend catheter.
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Hood, David K.; Musa, Osama M., Polyvinylamide polymers containing polymerizable functionalities.
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Hood, David K.; Musa, Osama M., Polyvinylamide polymers containing polymerizable functionalities.
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Ruane, Patrick H., Post-processing of a medical device to control morphology and mechanical properties.
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Anderson, Jeffrey P.; Popoola, Oludele, Process for forming a ceramic layer.
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Anderson, Jeffrey P.; Popoola, Oludele O., Process for forming a ceramic layer.
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Friedman, Craig D.; Datta, Arindam, Repair of spinal annular defects and annulo-nucleoplasty regeneration.
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Datta, Arindam; Friedman, Craig; Klempner, Daniel; Sendijarevic, Aisa, Reticulated elastomeric matrices, their manufacture and use in implantable devices.
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Rhodes, Rathbun K.; Tapsak, Mark A.; Brauker, James H.; Shults, Mark C., Sensor head for use with implantable devices.
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Rhodes, Rathbun K.; Tapsak, Mark A.; Brauker, James H.; Shults, Mark C., Sensor head for use with implantable devices.
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Rhodes, Rathbun K.; Tapsak, Mark A.; Brauker, James H.; Shults, Mark C., Sensor head for use with implantable devices.
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Boock, Robert J.; Rixman, Monica A., Silicone based membranes for use in implantable glucose sensors.
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Boock, Robert J.; Swinney, Monica Rixman, Silicone based membranes for use in implantable glucose sensors.
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Boock, Robert; Rixman, Monica, Silicone based membranes for use in implantable glucose sensors.
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Boock, Robert; Rixman, Monica, Silicone based membranes for use in implantable glucose sensors.
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Boock, Robert; Rixman, Monica, Silicone based membranes for use in implantable glucose sensors.
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Zhang, Kai; Buehler, Daniel; Brinkerhuff, Hallie E.; Hawkins, Michael E.; Klabunde, Ralf, Spacer with a coating thereon for use with an implant device.
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Taylor, Scott V.; McGinley, Kimball B.; Stout, John; Strokosz, Arkadiusz A., Surgical devices, systems and methods thereof having gel material, gel coatings, or gel lubricants.
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Lawson, Kenneth Glenn; Chen, Fung Bor; Capstick, Ian; Tuck, Randy, Synthetic polyisoprene foley catheter.
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Barrett, Peter K.; Avison, David W.; Carlson, Steven, System for filtering radio frequency and infrared optical transmissions.
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Kamath, Apurv Ullas; Dobbles, J. Michael; Mahalingam, Aarthi, Systems and methods for processing sensor data.
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Kamath, Apurv Ullas; Dobbles, John Michael; Mahalingam, Aarthi, Systems and methods for processing sensor data.
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Kamath, Apurv Ullas; Dobbles, John Michael; Mahalingam, Aarthi, Systems and methods for processing sensor data.
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Kamath, Apurv Ullas; Mensinger, Michael Robert; Li, Ying; Mahalingam, Aarthi; Dobbles, John Michael, Systems and methods for processing sensor data.
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Kamath, Apurv Ullas; Mensinger, Michael Robert; Li, Ying; Mahalingam, Aarthi; Dobbles, John Michael, Systems and methods for processing sensor data.
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Kamath, Apurv Ullas; Mensinger, Michael Robert; Li, Ying; Mahalingam, Aarthi; Dobbles, John Michael, Systems and methods for processing sensor data.
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Mensinger, Michael Robert; Li, Ying; Yang, Richard C.; Kamath, Apurv Ullas; Ruppert, Deborah M., Systems and methods for processing sensor data.
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Shariati, Mohammad Ali; Kamath, Apurv Ullas; Dobbles, J. Michael; Mahalingam, Aarthi, Systems and methods for processing sensor data.
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Shariati, Mohammad Ali; Kamath, Apurv Ullas; Mensinger, Michael Robert, Systems and methods for processing sensor data.
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Shariati, Mohammad Ali; Li, Ying; Kamath, Apurv Ullas; Mahalingam, Aarthi, Systems and methods for processing sensor data.
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Tapsak, Mark A.; Rhodes, Rathbun K.; Shults, Mark C.; McClure, Jason D., Techniques to improve polyurethane membranes for implantable glucose sensors.
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Tapsak, Mark A.; Rhodes, Rathbun K.; Shults, Mark C.; McClure, Jason D., Techniques to improve polyurethane membranes for implantable glucose sensors.
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Tapsak, Mark A.; Rhodes, Rathbun K.; Shults, Mark C.; McClure, Jason D., Techniques to improve polyurethane membranes for implantable glucose sensors.
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Tapsak, Mark A.; Rhodes, Rathbun K.; Shults, Mark C.; McClure, Jason D., Techniques to improve polyurethane membranes for implantable glucose sensors.
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Tapsak, Mark A.; Rhodes, Rathbun K.; Shults, Mark C.; McClure, Jason D., Techniques to improve polyurethane membranes for implantable glucose sensors.
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Tapsak, Mark A.; Rhodes, Rathbun K.; Shults, Mark C.; McClure, Jason D., Techniques to improve polyurethane membranes for implantable glucose sensors.
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Bowman, Howard; Hudson, Bruce W., Terpolymer blends and their use as pressure-sensitive adhesives.
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Bowman, Howard; Hudson, Bruce W., Terpolymer blends and their use as pressure-sensitive adhesives.
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Bowman, Howard; Hudson, Bruce W., Terpolymers as pressure-sensitive adhesives.
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Doshi, Praful, Tinted lenses and methods of manufacture.
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Kusunoki, Takao; Moriyama, Masaki, Tracheostomy tube.
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Brister, Mark; Neale, Paul V.; Brauker, James H.; Thrower, James Patrick, Transcutaneous analyte sensor.
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Brister, Mark; Neale, Paul V.; Brauker, James; Thrower, James Patrick, Transcutaneous analyte sensor.
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Brister, Mark; Neale, Paul V.; Saint, Sean; Petisce, James R.; Thrower, James Patrick; Kamath, Apurv Ullas; Kline, Daniel S.; Guerre, John A.; Codd, Daniel Shawn; McGee, Thomas F.; Petersen, David Michael, Transcutaneous analyte sensor.
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Pillai, Lakshmikumar; Burt, Patrick; Lunsford, John; Stiggelbout, John, Transvascular access device and method.
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Pillai, Lakshmikumar; Burt, Patrick; Lunsford, John; Stiggelbout, John, Transvascular access device and method.
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Pillai, Lakshmikumar, Transvascular access methods.
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Pillai, Lakshmikumar; LaDuca, Paul A.; Alavar, Frederich L.; LaDuca, Robert, Transvascular retrograde access devices.
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Markland, Peter; Bowman, Howard, Viscous terpolymers as drug delivery platform.
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Taylor, Scott V.; Balschweit, Paul W.; Albrecht, Jeremy J.; Johnson, Gary M.; Hilal, Said S.; Falkenstein, Zoran, Visual insufflation port.
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Taylor, Scott V.; Balschweit, Paul W.; Albrecht, Jeremy J.; Johnson, Gary M.; Hilal, Said; Falkenstein, Zoran, Visual insufflation port.
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Iwasawa, Akira; Fujimoto, Takeshi; Kawai, Yasuhiro; Hamanaka, Seiji, Water-based coating composition.
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Akkerman, Jaap Michiel; Roelofs, André; Van Der Horst, Richard; Van Egmond, Robert, Waterborne coating composition with improved open time.
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Avison, David W.; Carlson, Steven A.; Barrett, Peter K., Window films with reflective organic and metal layers.
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IPC	Description
A	생활필수품
A62	인명구조; 소방(사다리 E06C)
A62B	인명구조용의 기구, 장치 또는 방법(특히 의료용에 사용되는 밸브 A61M 39/00; 특히 물에서 쓰이는 인명구조 장치 또는 방법 B63C 9/00; 잠수장비 B63C 11/00; 특히 항공기에 쓰는 것, 예. 낙하산, 투출좌석 B64D; 특히 광산에서 쓰이는 구조장치 E21F 11/00)
A62B-1/08	.. 윈치 또는 풀리에 제동기구가 있는 것

내보내기 구분	파일저장 인쇄 메일전송
구성항목	기본정보 상세정보 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표IPC 관리번호, 국가코드, 자료구분, 상태, 출원번호, 출원일자, 공개번호, 공개일자, 공고번호, 공고일자, 등록번호, 등록일자, 발명명칭(한글), 발명명칭(영문), 출원인(한글), 출원인(영문), 출원인코드, 대표출원인, 출원인국적, 출원인주소, 발명자, 발명자E, 발명자코드, 발명자주소, 발명자 우편번호, 발명자국적, 대표IPC, IPC코드, 요약, 미국특허분류, 대리인주소, 대리인코드, 대리인(한글), 대리인(영문), 국제공개일자, 국제공개번호, 국제출원일자, 국제출원번호, 우선권, 우선권주장일, 우선권국가, 우선권출원번호, 원출원일자, 원출원번호, 지정국, Citing Patents, Cited Patents
저장형식	Text(ASCII format) Excel format PIAS분석(.xls)
메일정보	받는사람 (필수) @ 보내는사람 (선택) @ 제목 내용 KISTI 검색결과 이메일 서비스
안내	총 건의 자료가 검색되었습니다. 다운받으실 자료의 인덱스를 입력하세요. (1-10,000) 검색결과의 순서대로 최대 10,000건 까지 다운로드가 가능합니다. 데이타가 많을 경우 속도가 느려질 수 있습니다.(최대 2~3분 소요) 다운로드 파일은 UTF-8 형태로 저장됩니다. 파일의 내용이 제대로 보이지 않을실 때는 웹브라우저 상단의 보기 -> 인코딩 -> 자동선택 여부를 확인하십시오. ~ Text(ASCII format) Excel format

연합인증

Coating composition for multiple hydrophilic applications 원문보기

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연합인증

Coating composition for multiple hydrophilic applications 원문보기

초록 ▼

대표청구항 ▼

연구과제 타임라인

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IPC 상위 출원인

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