| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 106124100 | Proteinaceous material containing | 66 |
| 20130255537 | INJECTION MOLDED ARTICLES FROM NATURAL MATERIALS AND METHODS FOR MAKING THEM - Injection molded articles and methods for making them from bio-based materials are described. More specifically, injection molded articles and methods for making them from bio-based materials that behave like high-molecular-weight thermosets such as lignin or protein-based materials including corn gluten meal, corn gluten feed, distillers dried grains with solubles, wet distillers grains, modified wet distillers grains, canola meal, wheat gluten, barley, cottonseed meal, sunflower meal, linseed meal, soy, rapeseed, sorghum proteins, maize, rice proteins, potato proteins, cassava proteins, sweet potato proteins, yam proteins, plantain proteins, keratin, or collagen are described. | 10-03-2013 |
| 20140196631 | VISUAL ASSAYS FOR COATINGS INCORPORATING BIOACTIVE ENZYMES FOR CATALYTIC FUNCTIONS - Disclosed herein are materials such as a coating, comprising a lipolytic enzyme or organophosphrous compound degrading enzyme. Also disclosed herein are methods of visually detecting enzyme activity in a coating by contacting the coating with a substrate of an enzyme and a visual indicator that changes appearance upon production of a product of enzyme activity on a tack-free coating surface. | 07-17-2014 |
| 20140261075 | SYSTEM AND METHODS FOR TREATMENT OF BIOMASS PRODUCTS OR RESIDUES AND RESULTING COMPOSITION - The present invention is directed to a system and methods for treatment of biomass products or residues to obtain valuable adhesives and composite materials. Certain embodiments require no purification of a biomass product or residue to produce an adhesive. Certain embodiments include a treatment of post extraction algae residue configured to produce an adhesive. Advantageously, such use of post extraction algae residue adds value to alternative energy produced by extracting oil from algae. | 09-18-2014 |
| 20150101509 | Method of Manufacturing a Stiff Engineered Composite - The method of making a compressed biocomposite body includes compressing a mass of biocomposite material comprised of discrete particles and a network of interconnected glucan-containing mycelia cells in the presence of heat and moisture into a compressed body having a density in excess of 18 pcf. Compression may take place batch wise in a press or continuously in a path of narrowing cross-section defined by a series of heated rollers. | 04-16-2015 |
| 106124200 | Milk | 3 |
| 20100258033 | WOOD ADHESIVE AND METHOD OF PREPARING THEREOF - A wood adhesive having a) 100 weight parts of water; b) between 3 and 45 weight parts of a proteinaceous material; c) between 0.01 and 15 weight parts of an acidity regulator; d) between 0.01 and 15 weight parts of an aromatic compound; e) between 0.01 and 15 weight parts of a curing agent; f) between 0.01 and 15 weight parts of a preservative; g) between 0 and 15 weight parts of a viscosity modifier; h) between 0 and 10 weight parts of a filler; and i) between 0 and 15 weight parts of a drier. The wood adhesive can be used for preparation of plywood, blockboard, oriented strand board (OSB), flakeboard, fiberboard, veneer plywood, middle density fibreboard, high density fibreboard, hardboard, flooring substrate, LVL, and so on. A method for preparing the wood adhesive is also provided. | 10-14-2010 |
| 20150013569 | METHOD FOR PRODUCING A MILK PROTEIN BASED PLASTIC MATERIAL (MP BASED PLASTIC MATERIAL) - The disclosure relates to a milk protein based plastic material produced according to a plastic material shaping method, known by a person skilled in the art and the literature, in which at least one protein, which is obtained from milk and which can be thermally plasticized, is plasticized using a plasticizing agent, such as for example water or glycerol at temperatures of between room temperature and 140° C., subjected to mechanical stress and subsequently retreated according to a production method, known to person skilled in the art and literature, to form moulded bodies. | 01-15-2015 |
| 20160168420 | WATERBORNE AQUEOUS-ALCOHOL SOLUBLE PROTEIN COMPOSITIONS, APPLICATIONS AND METHODS | 06-16-2016 |
| 106124300 | Chemically modified tissue derived from multicellular animal of indeterminate structure (e.g., hydrolyzed, etc.) | 1 |
| 20100058952 | METHOD OF MANUFACTURING ACELLULAR MATRIX GLUE - An acellular matrix glue and a method of making is disclosed. Specifically, an acellular matrix glue that is useful in preparing a reinforced acellular matrix for medical applications including tissue engineering and hernia repair. | 03-11-2010 |
| 106124400 | Tissue derived from multicellular animal (e.g., connective tissue, muscle, organ, tendon, etc.) | 4 |
| 20080295735 | Collagen-Based Lyophilised Glue and the Use Thereof for Producing an Adhesive Prosthesis - A lyophilised glue contains a collagen which is partially crosslinked with the aid of at least one type of aldehyde. A method for preparing the glue and the use thereof for producing an adhesive on anti-adhesive prosthesis are also provided. | 12-04-2008 |
| 20150047532 | SYNTHETIC SPIDER SILK PROTEIN COMPOSITIONS AND METHODS - A method for solubilizing recombinant spider silk proteins in an aqueous solutions, where the method includes mixing recombinant spider silk proteins with water to form a mixture and heating the mixture in a closed vessel to form a solution. | 02-19-2015 |
| 106124700 | Feather, scale, horn, hoof, claw, ivory, or bone | 1 |
| 20140208980 | MANUFACTURING METHOD FOR FIBROUS DEMINERALIZED BONE MATRIX - The present invention relates to a manufacturing method for fibrous demineralized bone matrix, the method comprising: (a) a step for subjecting a bone, separated from a body, to a primary demineralization in an acid solution for 1-5 hours; (b) a step for slicing the bone obtained in step (a) to a thickness of 0.1-3 mm, thus forming a sheet of bone; (c) a step for subjecting the sheet of bone obtained in step (b) to a secondary demineralization in an acid solution for 2-6 hours; and (d) a step for grinding the demineralized bone obtained in step (c). | 07-31-2014 |
| 106124800 | Hair or fur | 1 |
| 106124810 | With carbohydrate from an external source | 1 |
| 20140326165 | FIBROUS PROTEIN PROCESSING METHOD - Disclosed is a process for preparing proteinaceous materials. The process comprises solubilising fibrous protein by contacting it with an alkaline solution, ageing the resulting mixture to form a homogenous solution, and coagulating the resulting solution to form the proteinaceous material. The proteinaceous materials may be produced as, for example, fibres, films, sheets, coatings, particles, shapes, foams or composites. | 11-06-2014 |
| 106125100 | Seed or tuber material (e.g., whole grains, rice flour, wheat flour, cornmeal, etc.) | 8 |
| 20100175586 | BIODEGRADABLE PLASTIC MATERIAL - A biodegradable plastic plastic material comprising a natural thermoplastic material is described, which, before moulding, is blended with one or more plasticisers. | 07-15-2010 |
| 20100251934 | MODELING COMPOUNDS AND METHOD OF MAKING SAME - The present invention provides modeling compounds and methods of making such compounds. In addition to other desirable properties, these modeling compounds may be certified organic, gluten-free, and/or soy-free. | 10-07-2010 |
| 20110048280 | Stable Acid Denatured Soy/Urea Adhesives and Methods of Making Same - The present invention provides an improved method of producing a stable acid denatured soy/urea adhesive having improved wet and dry strengths, with more efficient production and lower production costs. The method comprises combining urea with soy flour that has been acid treated until denatured and substantially free from urease activity. The soy flour is preferably lowered to a pH of 2.0 to 4.0 for at least 1 minute. Optionally, the method may also include adding a crosslinking agent, diluent or both to the soy flour/urea adhesive and/or adding an emulsified or dispersed polymer. Adhesives and dispersions prepared according to the methods of this invention offer increased stability and strength properties. | 03-03-2011 |
| 20140352574 | LEGUME AND/OR OIL SEED FLOUR-BASED ADHESIVE COMPOSITION - Adhesives made from phosphorylated legume and oil seed flours are described. The adhesive composition includes water and a legume and/or oil seed flour in which at least a portion of ε-amino moieties in lysine residues present in the flour are phosphorylated. An oxidizing agent may also optionally be added to the adhesive composition. | 12-04-2014 |
| 106126100 | With carbohydrate from an external source | 2 |
| 20110100256 | PROTEIN AND STARCH COMPOSITIONS, METHODS FOR MAKING AND USES THEREOF - The present disclosure relates to protein-starch compositions. The disclosure also relates to processes for preparing the protein-starch compositions. Further, the disclosure relates to uses of the protein-starch compositions in the preparation of adhesives or binders. Further, the disclosure relates to adhesive formulations that include protein-starch containing compositions and to paper products resulting from the processes herein. | 05-05-2011 |
| 106126300 | Carbohydrate gum or cellulosic material | 1 |
| 20140230690 | BIODEGRADABLE PACKAGING OBTAINED FROM CASSAVA FLOUR AND FIQUE FIBER AND THEIR MANUFACTURE PROCESS - The present invention is related to the elaboration of a compound material molded from cassava flour for the manufacture of biodegradable packaging useful in packing and packaging of dry foods and other products. The semi-rigid novel compound material is elaborated through thermo-pressing of a mixture of cassava flour and fique fiber. | 08-21-2014 |
| 106132100 | With nonproteinaceous organic compound containing oxygen except wax | 1 |
| 20090044722 | Processing for producing zein articles with limited solubility - Zein articles are prepared by a melt process where zein is mixed with glyoxal and an inorganic base solution at temperatures above about 40° C. The melt processing can take as a batch process (e.g., as in a torque rheometer) or in a continuous process (e.g., as in reaction extrusion using a screw extruder). This process provides a zein article that has greatly reduced solubility in most of the standard organic solvents that will dissolve unaltered zein. | 02-19-2009 |
| 106134100 | With element or inorganic compound except water | 1 |
| 20140238266 | Binder for manufacturing of concrete or laminated products - A binder for forming particle-based or laminated products includes a mixture of at least three components A, B, C, a first component A including a natural protein powder, a second component B including a magnesium oxide, and a third component C including a magnesium chloride or magnesium sulfate solution at 32° Bè (15° C.), or a free combination of both. | 08-28-2014 |
| 106135100 | With carbohydrate or derivative | 23 |
| 20090151600 | Mussel Bioadhesive - The present invention relates to a bioadhesive derived from mussel. In particular, it relates to a novel | 06-18-2009 |
| 20100031849 | Bioadhesive from distillers' dried grains with solubles (DDGS) and the methods of making those - A bioadhesive composition from distillers' dried grains with solubles (DDGS) is produced by reaction with an aqueous solution of a base, particularly, sodium hydroxide. Optionally, urea is included with the base. The bioadhesive composition is filtered as a solution from the residue of the reaction with the base. The bioadhesive composition is particularly useful as a boxboard glue. | 02-11-2010 |
| 20100319575 | COATINGS AND FILMS - A composition from which a coating or film can be formed comprises at least one prolamin protein, gluconic acid and/or a gluconic acid derivative as a plasticizer, and a solvent for the protein and the plasticizer. The composition is in the form of a solution. | 12-23-2010 |
| 20130186303 | Bioplastics - Bioplastics including an oligosaccharide, a plasticizer, and an additive are described. Such bioplastics display advantageous attributes including tensile strength that can be tailored for particular uses. Processes for obtaining such bioplastics are also described. | 07-25-2013 |
| 20140041547 | BIOCOMPATIBLE PHASE INVERTIBLE PROTEINACEOUS COMPOSITIONS AND METHODS FOR MAKING AND USING THE SAME - Biocompatible phase invertible proteinaceous compositions and methods for making and using the same are provided. Phase invertible compositions in accordance with the invention are prepared by combining a liquid proteinaceous substrate and a liquid crosslinking composition, where the liquid crosslinking composition includes a macromolecular crosslinking agent. Also provided are kits for use in preparing the subject compositions. The subject compositions, kits and systems find use in a variety of different applications. | 02-13-2014 |
| 20140076195 | Silk Protein Composite Coating Solution and its Preparation Method and Application - Silk protein composite coating solution and its preparation method and application. In weight percent, silk protein complex coating liquid is constituted by the following substances: 2 to 10% of the crosslinking agent, 0.5 to 2% acetic acid, 10 to 20% of the silk protein, the remainder being water. The method for preparation of silk protein composite coating solution has these steps: (1) preparation of the silk protein; (2) silk protein composite coating solution was prepared. Silk protein of the present invention has a natural emollient, antibacterial, and anti-allergic effects, and can be used on daily sanitary supplies for women, infants, and elderlies. | 03-20-2014 |
| 20140158020 | Ice-Tempered Hybrid Materials - A metal-polymer composite scaffold includes metal particles coupled with polymer binder, the scaffold having regions of aligned porosity with a gradient. In a particular embodiment, the metal particles include stainless steel. The metal particles have sizes equal to or smaller than 3 μm. The scaffold has Young's modulus is below 950 MPa. The polymer binder includes chitosan and gelatin. The composite also includes ethanol. The composite has porosity of at least 70%. Systems and methods for producing such metal polymer composite scaffold are also provided. | 06-12-2014 |
| 20140373748 | METHOD FOR PRODUCING MILK PROTEIN GELS, -HYDROGELS, -HYDROCOLLOIDES AND -SUPERABSORBERS (MILK PROTEIN GELS) - The disclosure relates to a milk protein hydrol gel, in which at least one protein which is obtained from milk and which can be thermally plasticized, is plasticized using a plasticizing agent, such as for example, water or glycerol at temperatures between room temperature and preferably up to 140° C. by means of mechanical stress and subsequently retreated according to a continuous or discontinuous process to form hydrogels. | 12-25-2014 |
| 20150299516 | COATING COMPOSITION - The present invention relates to a coating composition comprising a blend of a denatured protein, a lipid, a polyol plasticizer, trehalose, and a carrier. The invention further relates to methods of producing coating compositions, and products coated with the coating compositions. The invention further relates to use of a coating composition to mask, or reduce or prevent development of, flavours. Also, the present invention relates to use of a coating composition to prevent or reduce degradation of an active in a coated product, or to prevent or reduce leakage of an active from a coated product. Certain embodiments of the present invention relate to coating compositions that are suitable for coating microparticles. Some embodiments of the present invention relate to use of a coating composition to maintain probiotic viability or to improve probiotic survival in a product containing a probiotic. | 10-22-2015 |
| 20160068578 | COMPOSITIONS AND METHODS RELATED TO PROTEINS CAPABLE OF REVERSIBLE TRANSITION TO A MELT - Provided are compositions and methods for making a variety of products. The methods involve mixing sucker ring teeth (SRT) protein and a plasticizer or a solvent to obtain a mixture of the SRT protein and the plasticizer. When the SRT is mixed with a plasticizer it is heated to between 32° C. and 195° C. to obtain an SRT protein melt. The melt is used to form a wide variety of products. When the SRT is mixed with a solvent, such as an organic solvent or an aqueous solvent, a solution of the SRT protein is formed, and is subsequently used to forming a product from the solution, wherein the product contains SRT protein. | 03-10-2016 |
| 106136100 | Cellulosic material | 9 |
| 20120318169 | FUNCTIONALIZED MOLDED CELLULOSE BODY AND METHOD FOR PRODUCING THE SAME - The invention relates to a molded cellulose body which includes a functional substance having low impregnation efficiency, to the use thereof and to a method for introducing functional substances of low impregnation efficiency into a molded cellulose body during its production and after the molding step. | 12-20-2012 |
| 20140083327 | BACTERIAL CELLULOSE BASED 'GREEN' COMPOSITES - ‘Green’ composites are fabricated using resins, such as soy-based resins, and reinforced with crystalline high strength bacterial cellulose (BC) fibers. Bacterial cellulose is produced by providing a bacterial cellulose-producing bacterium such as | 03-27-2014 |
| 20180023216 | FUNCTIONALIZED MOLDED CELLULOSE BODY AND METHOD FOR PRODUCING THE SAME | 01-25-2018 |
| 106137100 | Lignocellulosic material (e.g., flock, sawdust, wood, etc.) | 4 |
| 20100006003 | COATING, ADHESIVE, AND IMPREGNATING SUBSTANCE, PARTICULARLY AS A CONSTRUCTION AND RESTORATION MATERIAL - The invention relates to a coating, adhesive, and impregnating substance (“Punic Milk”), particularly as a construction and restoration material, comprising a so-called “Punic Wax,” having at least beeswax, potash (K | 01-14-2010 |
| 20100089287 | Soy protein adhesive and uses thereof - The present invention provides a soy protein-based adhesive composition and a process for making the composition that may be used in particleboards and similar wood composite systems and that is formed from an aqueous mixture of calcium oxide, pine oil, protein, lignin, and acid. The preferred protein is an enzymatically-modified soy protein and the preferred enzyme is urease. | 04-15-2010 |
| 106137600 | With nonproteinaceous organic compound containing sulfur or nitrogen | 2 |
| 20090007818 | Silanization of Wood Turnings and Fibers for Producing Wood-Plastic Composite Materials - The present invention relates to composite materials composed of lignocellulosic fibers, for example wood meal, and thermoplastic polymer. The inventive composite material has improved mechanical properties. According to the invention, it is envisaged that the lignocellulosic fibers, before mixing with the thermoplastic polymer, are treated with an aqueous mixture composed of organopolysiloxanes which contain aminoalkylalkoxysilanes. | 01-08-2009 |
| 20160145478 | Delignification of biomass containing lignin and production of adhesive compositions and methods of making lignin cellulose compositions - Delignification of biomass consisting of lignin containing plants is done by utilizing an amino compound in and aqueous solution at ambient temperature up to 150 degree C. to produce and aqueous solution of amino lignin and an amino lignin cellulose which is not soluble in water. The aqueous solution of amino lignin is then filtered off of the amino lignin cellulose. The aqueous solution of amino lignin or the amino lignin with the amino lignin cellulose may be reacted with an abundant and renewable resources such as plant protein and/or carbohydrates to produce an amino lignin protein and/or carbohydrates adhesive and resin. The resins are hard, strong, and maybe used to make exterior fiberboard, OAS boards, plywood, molded products, etc. The amino lignin cellulose may be hydrolyzed by any suitable means such as acid hydrolysis, cellulase or bacterial enzymes into carbohydrates which can be fermented in alcohol. | 05-26-2016 |
| 106140100 | Cellulose ether or salt thereof | 1 |
| 20120222584 | BIOCOMPATIBLE PHASE INVERTIBLE PROTEINACEOUS COMPOSITIONS AND METHODS FOR MAKING AND USING THE SAME - Biocompatible phase invertible proteinaceous compositions and methods for making and using the same are provided. Phase invertible compositions in accordance with the invention are prepared by combining a liquid proteinaceous substrate and a liquid crosslinking composition, where the liquid crosslinking composition includes a macromolecular crosslinking agent. Also provided are kits for use in preparing the subject compositions. The subject compositions, kits and systems find use in a variety of different applications. | 09-06-2012 |
| 106143100 | With nonproteinaceous organic compound containing oxygen except wax | 1 |
| 20130220173 | MACROPHYTE-BASED BIOPLASTIC - A bioplastic composition may contain certain biodegradable and renewable components. In some examples, the bioplastic composition includes at least one kind of aquatic macrophyte biomass, which may contain a native composition of protein and carbohydrates, in a blend with one or more types of biodegradable or durable thermoplastic polymers. The aquatic macrophyte composition may provide a balance of both polymeric and reinforcing properties to the blended bioplastic not typically exhibited by terrestrial feedstock such as soy meal or corn starch. Such a bioplastic composition may be formed into molded articles using extrusion, injection molding, compression molding, or the like. | 08-29-2013 |
| 106145100 | Starch or derivative | 4 |
| 20120125231 | Coating Formulation - A coating composition comprising from 5-15% by weight prolamine, from 5 to 15% by weight surfactant and from 70-90% by weight water is provided along with methods of sizing substrates. Particularly preferred are compositions further comprising glyoxal or other crosslinking agents. Also provided are coating compositions comprising from 5 to 30% surfactant by weight with water and an antifoam agent and further comprising a carbohydrate The compositions are optionally applied with additional coating ingredients including carbohydrates including starches as well as binders, minerals and pigments and antifoam agents. | 05-24-2012 |
| 20160102206 | RESILIENT RENEWABLE COMPOSITES AND METHOD OF MAKING - A renewable composite used a structural component in furniture is provided along with a method of making the same. The renewable composite comprises a biodegradable composition capable of receiving and retaining staples and other fasteners. The biodegradable composition includes a mixture of a resilient material and a base resin, wherein the base resin comprises a protein or starch-based resin and one or more strengthening agents. The method comprises providing the base resin, providing the resilient material; mixing the resilient material with the base resin to form a homogeneous mixture of a biodegradable composition; drying or pre-curing the biodegradable composition; and forming a renewable composite in the shape of a structural component. Optionally, the biodegradable composition may be subjected to pre-form molding. | 04-14-2016 |
| 106145500 | With nonproteinaceous organic compound containing oxygen except wax | 2 |
| 20150090156 | ADHESIVES THAT INCLUDE PLASTICIZED STARCH DERIVATIVES AND METHODS AND ARTICLES RELATING THERETO - The adhesive compositions that include starch derivatives, plasticizers, optionally cellulose derivatives, and optionally other additives. By tailoring the composition and concentration of these components, hot melt adhesive compositions, hot melt pressure sensitive adhesive compositions, and pressure sensitive adhesives have been produced. Further, these adhesive compositions may be useful in articles including diapers, laminates, repositionable advertisements, and many more. | 04-02-2015 |
| 20160186018 | Adhesive, method of producing the same and uses thereof - An adhesive composition and a method of producing the same. According to the present invention, a first adhesive component which comprises polyphenol and another adhesive component which comprises a starch derivative, are dissolved or dispersed in water. The polyphenol and the starch derivative are added into the water at a weight ratio which is approximately 1:50 . . . 50:1, in which case the quantities of polyphenol and starch derivative added are such that the dry matter percentage of the adhesive composition is at least 40% by weight. The composition according to the present invention is particularly suitable for gluing of fibrous, such as laminated or veneer-based products. | 06-30-2016 |
| 106148100 | With lanolin, lecithin, fat, or fatty oil | 1 |
| 106148500 | With nonproteinaceous organic compound containing oxygen except wax | 1 |
| 20120111229 | Multi-Component, Temperature Activated, Tissue Adhesive, Sealing, and Filling Composition - A tissue filling, repair, sealing, or bonding substance comprising at least three components, at least two of which upon coming into fluid communication with each other react and change the chemical, structural or other properties of the substance so as to bond to adjacent native or implanted tissue. The composition is further defined as comprising a first component of a curable substance, a second component of a suitable curing agent, and a third component of an encapsulant capable of forming a barrier between the first two components and physically arranged to form an encapsulated dispersion of the form interior phase (linking agent), exterior phase (encapsulant), and continuous phase (curable substance). The encapsulant is further defined as having limited solubility in the curable substance and the curing agent and having a melting temperature between 10° C.-50° C. | 05-10-2012 |
| 106150100 | With nonproteinaceous hetero ring compound | 1 |
| 106150200 | With nonproteinaceous organic compound containing sulfur or nitrogen | 1 |
| 20150359924 | TISSUE ADHESIVE AND METHOD FOR PRODUCING SAME - There is provided a tissue adhesive to be applied to a tissue by mixing an adhesive component including an aqueous solution of a fish-derived gelatin with a curable component including an aqueous solution of a water-soluble crosslinking reagent, wherein the water-soluble crosslinking reagent has an amide linkage or an ethylene glycol unit or a sugar chain in the molecular main chain thereof and has two or more of an active ester group or an acid anhydride or an aldehyde group. | 12-17-2015 |
| 106154110 | With nonproteinaceous organic compound containing sulfur | 2 |
| 20130139725 | METHODS OF MANUFACTURING PLASTIC MATERIALS FROM DECOLORIZED BLOOD PROTEIN - The present disclosure provides methods for manufacturing plastic materials from decolorized blood protein. The method includes the following steps: contacting the blood protein an oxidizing agent to form a blood protein composition that includes unreacted oxidizing agent; removing at least a portion of the unreacted oxidizing agent from the blood protein composition to form a decolorized blood protein composition; and treating the decolorized blood protein composition in the presence of a plasticizer with sufficient pressure and temperature to form the plastic material. The present disclosure also provides a plastic material including a blood protein residue having a percent whiteness of 35%-100% and a plasticizer. | 06-06-2013 |
| 20140245923 | POLYPEPTIDE SOLUTION, ARTIFICIAL POLYPEPTIDE FIBER PRODUCTION METHOD AND POLYPEPTIDE PURIFICATION METHOD USING SAME - A polypeptide solution of the present invention is a polypeptide solution in which a polypeptide derived from natural spider silk proteins is dissolved in a solvent. The solvent contains at least one selected from the following (i)-(iii): (i) DMSO; (ii) DMSO with an inorganic salt; and (iii) DMF with an inorganic salt. Further, in the present invention, an artificial polypeptide fiber is obtained by: using the polypeptide solution as a dope solution; and extruding the dope solution from a spinneret into a desolvation bath so as to eliminate the solvent from the dope solution and form a fiber to produce an undrawn yarn. Moreover, in the present invention, a polypeptide is purified by subjecting the polypeptide solution to heat treatment and thereafter removing an undissolved substance therefrom. Thus, the present invention provides the polypeptide solution whose solute has high solubility and solvent itself is low cost, and that allows dissolution at high temperatures and has high safety: a method for producing an artificial polypeptide fiber: and a method for purifying a polypeptide. | 09-04-2014 |
| 106155100 | With nonproteinaceous organic compound containing nitrogen | 4 |
| 106155200 | Nitrogen and oxygen in the same compound | 4 |
| 106155210 | Nitrogen single bonded directly to carbon of a -C(=O)- group | 3 |
| 20130206034 | BIOPOLYMERS AND PROCESSES FOR MAKING SAME - A dried distiller soluble based biopolymer, processes for forming the biopolymer, and articles of manufacture thereof. The produced dried distillers solubles derives from co-products of corn fermentation facilities and is comprised in part of water-soluble proteins. A biopolymer consists essentially of dried distillers solubles, and an article of manufacture includes a biopolymer consisting of dried distillers solubles and an optional additive. The process of forming dried distiller solubles involves separating whole stillage into a liquid fraction and a solid fraction, wherein the liquid fraction comprises water soluble proteins in an amount greater than the solid fraction, and wherein the solid fraction has a higher solid content than the liquid fraction. The liquid fraction is sprayed at an elevated temperature to remove at least a portion of moisture in the liquid fraction and form particles and granules of the liquid fraction. Addition moisture is removed from the particles and granules in a fluidized bed to form dried distillers solubles, wherein the particles and granules are heated to a temperature less than 300° F. and have a residence time effective to reduce the moisture content of the dried distillers solubles to less than 20 percent to greater than 3 percent by weight. | 08-15-2013 |
| 20130220174 | TWO-COMPONENT TISSUE ADHESIVE AND METHOD FOR PRODUCING SAME - The present invention addresses the problem of providing: a two-component tissue adhesive having high adhesive strength and high biocompatibility; and a method for producing the two-component tissue adhesive. The present invention involves a two-component tissue adhesive comprising hydrophobically-modified gelatin as a first agent and a cross-linking reagent as a second agent. The hydrophobically-modified gelatin is provided with an amino group and a hydrophobic group on the side chain thereof, and the cross-linking reagent has two or more active ester groups or anhydrides within a single molecule. | 08-29-2013 |
| 20130312637 | PLASTIC MOLDING COMPOSITION AND SINTERED PRODUCT - A plastic molding composition includes a powder, gelatin, a polar solvent, and an adhesion reducer. The powder contains at least one of a ceramic particle and a metal particle. The adhesion reducer reduces adhesion of the gelatin so that a molded product, which is molded from the composition with a molding die, is removed from the molding die without being broken. The adhesion reducer is a water-soluble or water-dispersible compound. The adhesion reducer has a HLB value, calculated by Griffin's method, ranging from 10 to 20. | 11-28-2013 |
| 106155230 | Tertiary amine oxide | 1 |
| 20150114256 | METHOD FOR PRODUCING MOULDED ARTICLES - A method for producing moulded articles from a base substance which is mixed with a solvent to produce a moulding solution, and subsequently this solvent is at least partially removed from the moulding solution and the moulding solution is supplied to a device ( | 04-30-2015 |
| 106156100 | With nonproteinaceous organic compound containing oxygen except wax | 4 |
| 106156200 | The oxygen is part of a-C(=O)- group | 4 |
| 20110283918 | COATINGS FROM NATURAL MACROMOLECULES, WITH GAS BARRIER PROPERTIES TAILORED IN SITU, AND RELATED PREPARATION METHOD - The invention concerns lake compositions based on natural macromolecules (gelatin, chitosan, pectine etc.) with possible additions of vinyl polymers, metal-alcoxides etc., characterized by a barrier effect modulated in situ, in particular as a function of the relative humidity in the exterior ambient. | 11-24-2011 |
| 20130312638 | SYSTEMS, DEVICES AND METHODS FOR THE FABRICATION OF POLYMERIC FIBERS - Exemplary embodiments provide systems, devices and methods for the fabrication of three-dimensional polymeric fibers having micron, submicron, and nanometer dimensions, as well as methods of use of the polymeric fibers. | 11-28-2013 |
| 106156210 | Carbon bonded directly to the single bonded oxygen of the -C(=O)O- group | 2 |
| 106156220 | Plural -C(=O)O- groups | 2 |
| 20140060383 | THERMOPLASTICS FROM POULTRY FEATHERS - The invention is directed to thermoplastics derived from feathers. The thermoplastics are prepared by blending whole feathers or portions thereof with a plasticizer in an amount ranging from about 20 wt to about 40 wt % and a reducing agent in an amount ranging from about 1 wt % to about 5 wt % to form a mixture; and either extruding the mixture to form an article, or pressing the mixture into a film at an elevated temperature. | 03-06-2014 |
| 20140251180 | WATERBORNE AQUEOUS-ALCOHOL SOLUBLE PROTEIN COMPOSITIONS, APPLICATIONS, AND METHODS - Waterborne aqueous-alcohol soluble protein compositions, methods of making the compositions, and applications thereof are disclosed. The dispersion compositions include protein, water, acid, and optionally an ester of a carboxylic acid. The methods of making the compositions including combining the protein, water, acid and optionally ester to form a dispersion without the benefit of alcohol. Applications include industrial and food applications, such as binders and coatings, for example paint binders or coatings for paper products and pharmaceuticals. | 09-11-2014 |
| 106157200 | With element or inorganic compound except water | 6 |
| 20110192319 | Nanotubular Toughening Inclusions - Conventional toughening agents are typically rubbery materials or small molecular weight molecules, which mostly sacrifice the intrinsic properties of a matrix such as modulus, strength, and thermal stability as side effects. On the other hand, high modulus inclusions tend to reinforce elastic modulus very efficiently, but not the strength very well. For example, mechanical reinforcement with inorganic inclusions often degrades the composite toughness, encountering a frequent catastrophic brittle failure triggered by minute chips and cracks. Thus, toughening generally conflicts with mechanical reinforcement. Carbon nanotubes have been used as efficient reinforcing agents in various applications due to their combination of extraordinary mechanical, electrical, and thermal properties. Moreover, nanotubes can elongate more than 20% without yielding or breaking, and absorb significant amounts of energy during deformation, which enables them to also be an efficient toughening agent, as well as excellent reinforcing inclusion. Accordingly, an improved toughening method is provided by incorporating nanotubular inclusions into a host matrix, such as thermoset and thermoplastic polymers or ceramics without detrimental effects on the matrix's intrinsic physical properties. | 08-11-2011 |
| 20140360403 | Organic-Inorganic Composite Materials as a Result of Biomineralization - A method for producing organic-inorganic composite materials includes at least one biomineralising protein and/or polypeptide-encoding recombinant polynucleotide being introduced into at least one host cell, preferably from the class of slime moulds, and the expressed protein and/or polypeptide influencing the formation of inorganic particles in an extracellular matrix of the host cell. | 12-11-2014 |
| 20160040025 | THREE-DIMENSIONAL OBJECT FORMATION POWDER MATERIAL, THREE-DIMENSIONAL OBJECT FORMATION MATERIAL SET, AND THREE-DIMENSIONAL OBJECT PRODUCTION METHOD - Provided is a three-dimensional object formation powder material used for three-dimensional object formation of forming a three-dimensional object by stacking up a plurality of powder material layers each bound by a resin and having a predetermined shape. The three-dimensional object formation powder material contains particles in which a plurality of cores are fixed by a water-soluble resin. | 02-11-2016 |
| 106157500 | Elemental sulfur or inorganic sulfur compound | 1 |
| 20140069296 | ANTI-FOULING BIO-HYDROGEL COMPOSITION - The invention comprises a biological hydrogel that is chemically stabilized with non-covalent or covalent cross-links. The biological hydrogel is used to coat surfaces of materials for submersion in marine water. Molecular dissolution at the marine water-hydrogel surface prevents attachment of fouling organisms. The rate of dissolution can be controlled by both the concentration of the biopolymer in the hydrogel and the nature and concentration of cross-linker used. Additional components, either molecular or particulate, can be added to the biological hydrogel before or after cross-linking for enhanced properties. | 03-13-2014 |
| 106157800 | Metal oxide | 2 |
| 20130239849 | PROCESS FOR PRODUCING BIOPOLYMER NANOPARTICLE BIOLATEX COMPOSITIONS HAVING ENHANCED PERFORMANCE & COMPOSITIONS BASED THEREON - The present invention provides novel biolatex conjugate compositions and methods of production and use thereof. The novel biolatex conjugate compositions comprise a biopolymer-additive complex (prepared by co-extruding a biopolymer feedstock, at least one performance-enhancing additive, and at least one plasticizer under shear forces) reacted with a crosslinking agent under shear forces. The biolatex conjugate compositions exhibit enhanced performance properties for coated paper, paperboard, and other applications using extremely low levels of performance-enhancing additives. | 09-19-2013 |
| 20140137770 | METHOD FOR PRODUCING A STABLE DISPERSION OF NANO-PARTICLES, DISPERSION PRODUCED, AND USE THEREOF - The present invention relates to a method for producing a stable dispersion of nano-particles, comprising the steps: a) mixing a suspension of nano-particles with an aqueous solution of gelatine hydrolysate; and b) adding an aqueous solution of gelatine to the mixture. Furthermore, the invention relates to a stable dispersion of nano-particles as well as the use thereof. | 05-22-2014 |
| 106158100 | Albumin or derivative | 1 |
| 20120085262 | Production of Highly Concentrated Solutions of Self-Assembling Proteins - The present invention concerns stable aqueous protein dispersions comprising in an aqueous phase at least one self-assembling protein in dispersed form and also at least one specific dispersant for the self-assembling protein; processes for producing such stable aqueous dispersions; processes for electrospinning self-assembling proteins using such stable aqueous dispersions; processes for producing fibrous sheet bodies or fibers from such aqueous dispersions; the use of such aqueous dispersions for coating surfaces; the use of the materials produced by electrospinning in the manufacture of medical devices, hygiene articles and textiles; and also fibrous or fibrous sheet bodies produced by an electrospinning process of the present invention. | 04-12-2012 |
| 106160100 | Gelatin or collagen or derivative (e.g., glue, etc.) | 3 |
| 20110253009 | PAINTBALL FILL MATERIAL - According to principles of this invention, flour can be used as a filler for either an oil-based or PEG-based paintball fill material. In one embodiment of the present invention, a paintball fill material preferably comprises flour. More particularly, a paintball according to principles of the present invention can comprise a gelatin capsule defining an interior chamber which, upon formation of the paintball, houses a fill material. The fill material can comprise, for instance, 1%-65% polyethylene glycol, 25%-45% flour, and up to 0.5% dye, with the balance water. Accordingly, unlike conventional paintballs, the paintball fill material of the present invention preferably contains flour rather than starch to reduce the amount of polyethylene glycol required for the fill material. In alternative formulations, an oil can be used in addition to, or instead of, polyethylene glycol. According to another aspect of the present invention, the gelatin capsule for the paintball can also utilize flour in its composition. As with the fill material, the use of flour rather than starch in the paintball shell composition can reduce equipment maintenance and production costs. | 10-20-2011 |
| 20110283919 | NOVEL METHOD FOR MATRIX MINERALIZATION - This invention provides novel methods for making mineralized matrices. In certain embodiments methods are provided for forming a crystalline phase within a defined liquid volume. The methods can involve combining a crystallization inhibitor; a solution that would, in the absence of the inhibitor, form the crystalline phase; and a semi-permeable barrier that excludes the inhibitor but allows the solution containing the constituents of the crystalline phase to enter, whereby a crystalline phase is formed within the liquid volume. | 11-24-2011 |
| 20120073470 | PAINT HARDENER - Compositions for hardening paint, particularly residual waste water-based paints are described. The compositions comprise at least one water soluble or water dispersible, natural or synthetic polymer and optionally an agent that increases the ionic strength of the paint. Methods of hardening waste water-based paint for environmentally responsible disposal are also described. | 03-29-2012 |
| 106161100 | Prolamine or derivative (e.g., zein, etc.) | 1 |
| 20130014673 | WATER-BASED PROLAMIN COMPOSITIONS, METHODS OF MAKING WATER-BASED PROLAMIN COMPOSITIONS, AND APPLICATIONS THEREOF - The invention relates to water-based prolamin (e.g., zein) compositions and to methods of making water-based prolamin compositions. The compositions may be used in paints, printing inks, varnishes, adhesives, glues, binders (e.g., for paper), food coatings, and the like. | 01-17-2013 |
