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From imide- or lactam-containing compound, or from an amino-nitrogen containing carboxylic acid, or derivative of an amino-nitrogen-containing carboxylic acid

Subclass of:

528 - Synthetic resins or natural rubbers -- part of the class 520 series

528000000 - SYNTHETIC RESINS (CLASS 520, SUBCLASS 1)

528271000 - FROM CARBOXYLIC ACID OR DERIVATIVE THEREOF

Patent class list (only not empty are listed)

Deeper subclasses:

Class / Patent application numberDescriptionNumber of patent applications / Date published
528323000 Lactam-containing reactant 26
528322000 Imide-containing reactant 23
528312000 Polymerizing in the presence of a specified material other than reactant 13
528321000 Phosphorus- or sulfur-containing reactant 8
528327000 Heterocyclic reactant or a reactant which contains a nitrogen atom bonded directly to another nitrogen atom 7
528331000 Aryl-containing reactant 7
528328000 From N-C-(C=O)-OH containing reactant or acid derivative thereof, e.g., alpha amino acid, etc. 3
20110196123PROCESS FOR THE PREPARATION OF POLY-alpha-GLUTAMIC ACID AND DERIVATIVES THEREOF - The invention relates to an improved process for the preparation of poly-α-glutamic acids which comprises the polymerization of tertiary γ-esters of α-glutamic acid N-carboxy anhydride with appropriate solvents and initiators, followed by acid hydrolysis of the resulting poly-α-glutamic acid-γ-ester. The process is particularly advantageous in that it allows one to carefully control the molecular weight of the resulting poly-α-glutamic acid. The invention also relates to poly-α-glutamic acids capped at the amino terminus with carboxylic acids or amino acids and to a process for the preparation thereof.08-11-2011
20090118460SOLUBLE AROMATIC RANDOM COPOLYIMIDE AND PROCESS FOR PREPARING SAME - A soluble aromatic random copolyimide and a process for preparing same are herein disclosed, wherein the copolyimide is prepared from (a) an aromatic diamine and two or more different aromatic dianhydrides or (b) an aromatic dianhydride and two or more different aromatic diamines; wherein at least one of the diamine or the dianhydride contains a sulfonyl group directly or indirectly linking the two amine moieties in said diamine or the two anhydride moieties in said dianhydride. The copolyimide is soluble at room temperature in polar organic solvents such as N-methyl-2-pyrollidone, N,N-dimethylacetamide, and dimethylformamide, and has a glass transition temperatures below its respective melting points. As such, the copolyimide is more easily solubilized and processed into working forms, while still retaining desirable characteristics such as heat resistance, and may be used in various applications for which aromatic polyimides are known to be useful.05-07-2009
20130023642POLYESTER AMIDE COMPOUND - A polyesteramide compound containing from 50 to 99.9 mol % of an ester unit represented by the following general formula (I), and from 0.1 to 50 mol % of a constituent unit represented by the following general formula (II):01-24-2013
528329100 With two or more reactants one of which is a carboxylic acid or derivative thereof which is devoid of an amine group and one reactant which is a polyamine which is devoid of a carboxylic acid group or carboxylic acid derivative group 2
20080262191METHODS FOR THE PREPARATION OF IMIDES, MALEIMIDES AND MALEIMIDE-TERMINATED POLYIMIDE COMPOUNDS - Provided herein are methods for preparing maleimides, polyimides and maleimide-terminated polyimides. Specifically disclosed are methods for preparing maleimides from N-substituted maleamic acids in the presence of an alcohol catalyst and an acid co-catalyst in a solvent. Also disclosed are methods for preparing polyimides by reacting a diamine with a dianhydride in a reaction medium that includes a solvent and a polar protic co-solvent. Further provided are methods for preparing maleimide-terminated polyimides from diamines in an aromatic solvent containing a polar protic co-solvent.10-23-2008
20080281073High-Purity Oxydiphthalic Acid Anhydride and Process for Producing the Same - It is to provide a high purity oxydiphthalic anhydride with which, in production of a polyimide containing an oxydiphthalic anhydride, one having sufficiently high strength can be produced, and an industrially simple process for producing it.11-13-2008
Entries
DocumentTitleDate
20090099333Compounds Containing Aldimine - The invention relates to compounds of formula (I) which contain aldimine, and to the use thereof. Said compounds which contain aldimines are characterised in that they are odour-less and during hydrolysis the odour-free aldehydes are separated. They are used, therefor, as sources for aldehydes. They can also be used in cross-linking reactions.04-16-2009
20090306330Polyamide resin and hinged molded product - A polyamide resin comprising a dicarboxylic acid constitutional unit comprising an adipic acid unit and a diamine constitutional unit comprising a pentamethylenediamine unit and a hexamethylenediamine unit wherein a weight ratio of the pentamethylenediamine unit to the hexamethylenediamine unit being in the range of 95:5 to 60:40; a vibration-welded molded product having an excellent vibration welding strength, a hinged molded product and a binding band having an excellent low-temperature toughness, and a filament having an excellent transparency which are obtained from the polyamide resin; and a hinged molded product comprising a polyamide resin constituted of an adipic acid unit and a pentamethylenediamine unit.12-10-2009
20100145002TETRACARBOXYLIC ACID OR POLYESTERIMIDE THEREOF, AND PROCESS FOR PRODUCTION OF THE SAME - The present invention provides a useful and novel alicyclic polyesterimide.06-10-2010
20100228000NYLON EXTRACTION FROM COMMINGLED MATERIALS - The present invention provides energetically and economically efficient methods for separating polyamide polymer(s) from commingled materials. The methods generally involve precipitating a polyamide polymer dissolved in a solvent (e.g., formic acid) using dimethyl ether (DME) as an antisolvent. The methods comprise dissolving the polyamide polymer in a solvent that (i) selectively dissolves the polyamide polymer relative to the other materials and (ii) has a higher solubility for DME relative to the polyamide polymer; and then contacting the mixture of the solvent with the dissolved polyamide polymer with DME, thereby precipitating the polyamide polymer.09-09-2010
20100216967INTERFACIAL POLYMERIZATION METHODS FOR MAKING FLUOROALCOHOL-CONTAINING POLYAMIDES - A method including reacting a chemical mixture (A) and a chemical mixture (B) to form a polymeric compound, wherein where (A) and (B) are immiscible with each other, and wherein:08-26-2010
20080287641MICRON-SIZE POLYMER PARTICLES, PRODUCTION AND USES THEREOF - A plurality of micron-size solid particles is described herein that includes at least one polyamide compound, wherein the particles comprise a diameter in the range of about 1 micron to about 1000 microns, and wherein at least some of the plurality of particles are substantially transparent. In addition, a plurality of micron-size solid particles is described herein that includes at least one polyamide compound, wherein the particles comprise a diameter of less than about 4 microns. Methods of forming a plurality of micron-size solid particles are also described that include a) introducing at least one amide-based compound having a melting point, at least one suspending agent and at least one surfactant into a reaction vessel to form a reaction mixture; b) applying a thermal energy to the reaction mixture, wherein the thermal energy comprises a temperature that is at or above the melting point of the at least one amide-based compound; c) polymerizing the at least one amide-based compound in the reaction mixture; d) cooling the reaction mixture; and e) rinsing the reaction mixture to retrieve the polymer particles.11-20-2008
20100179300Product containing epichlorohydrin, its preparation and its use in various applications - Product containing epichlorohydrin and at least one alkyl glycidyl ether in an amount of less than 0.1 g/kg of product. Use of the product containing epichlorohydrin in the manufacture of epoxy resins, of glycidyl ethers, of glycidyl esters, of glycidyl amides, of glycidyl imides, of products that will be used in food and drink applications, of cationization agents, and of flame retardants, of products which will be used as detergent ingredient and of epichlorohydrin oligomers.07-15-2010
20100324257OMEGA-AMINO CARBOXYLIC ACIDS, OMEGA-AMINO CARBOXYLIC ACID ESTERS, OR RECOMBINANT CELLS WHICH PRODUCE LACTAMS THEREOF - The present invention relates to a cell, which has been genetically modified relative to its wild type, so that in comparison with its wild type it is able to produce more ω-aminocarboxylic acids, more ω-aminocarboxylic acid esters or more lactams derived from ω-aminocarboxylic acids, starting from carboxylic acids or carboxylic acid esters. Furthermore, the present invention relates to a method for the production of a genetically modified cell, the cells obtainable by this method, a method for the production of ω-aminocarboxylic acids, of ω-aminocarboxylic acid esters or of lactams derived from ω-aminocarboxylic acids, the ω-aminocarboxylic acids, ω-aminocarboxylic acid esters or lactams derived from ω-aminocarboxylic acids obtainable by this method, a method for the production of polyamides based on ω-aminocarboxylic acids or based on lactams and the polyamides obtainable by this method.12-23-2010
20100324258Process for the Production of Gamma-Aminobutyric Acid - The present invention relates to a novel method for the fermentative production of gamma-aminobutyric acid (GABA) by cultivating a recombinant micro-organism expressing an enzyme having a glutamate decarboxylase activity. The present invention also relates to corresponding recombinant hosts, recombinant vectors, expression cassettes and nucleic acids suitable for preparing such hosts as well as to a method for preparing polyamides making use of GABA as obtained fermentative production.12-23-2010
20090318660CROSSLINKABLE ARAMID COPOLYMERS - The invention pertains to an aramid copolymer composition comprising an aramid copolymer having at least one arylene carboxylic acid moiety and at least one hydroxyarylene moiety, or comprising an aramid copolymer having at least one arylene carboxylic acid moiety or having at least one hydroxyarylene moiety, and a crosslinker agent. The invention further relates to crosslinked copolymers derived thereof and shaped articles comprising said crosslinked copolymers.12-24-2009
20100204434Process For The Preparation Of Particularly Reactive And Low-Viscosity Allophanates Having Actinic-Curable Groups And The Use Thereof For The Preparation Of Particularly Scratch-Resistant Coatings - The present invention relates to a process for the preparation of particularly reactive and low-viscosity reaction products of polyisocyanates which contain activated ethylenically unsaturated groups which react by polymerization under the action of actinic radiation, and the use of these reaction products in coating compositions, and particularly scratch-resistant coatings obtainable therefrom.08-12-2010
20110003965CNT-PI COMPLEX HAVING EMI SHIELDING EFFECTIVENESS AND METHOD FOR PRODUCING THE SAME - The present invention provides a complex including carbon nanotubes (CNT) and polyimide (PI), and a method for producing the same. The CNT-PI complex possesses good electromagnetic shielding effectiveness. The CNT-PI complex primarily includes polyimide and carbon nanotubes dispersed in the polyimide. The method for producing the CNT-PI complex first disperses carbon nanotubes in a solvent by adding a dispersant and using an ultrasonic oscillator. Then the carbon nanotubes dispersion is mixed with polyamic acid to give a CNT-PI dispersion. The CNT-PI dispersion is then dried to form a film or layer of the CNT-PI complex. The dispersant used in this invention is an ionic liquid including organic cations and inorganic anions. The produced CNT-PI complex presents better networked structures and electrical conductivity.01-06-2011
20110160426HYDROLYTICALLY DECOMPOSABLE IONIC COPOLYMERS - The invention at hand provides hydrolytically degradable ionic copolymers. These ionic copolymerizates are composed of one cyclic ketene acetal A, one anionic or cationic methacrylic acid derivative B, selected from 2-methyl-methacrylate, [2-(2-methyl-1-methylene-allyloxy)]ethanesulfonate, [2-(2-methyl-1-methylene-allyloxy)ethyl]phosphonate or a quaternary amine of the N,N-dimethylaminoethylmethacrylic acid (DMAEMA) and, optionally, a neutral methacrylic acid derivative C.06-30-2011
20130150550Antibiotic-Bound Poly(Caprolactone) Polymer - This invention is the design and synthesis of a caprolactone monomer which bears a pendant protected carboxyl group. This monomer has been copolymerized with caprolactone in varying ratios. After polymerization, the protecting group can be removed and an antibiotic can be attached as a new pendant group. The bioactivity of the antibiotic-bound poly(caprolactone) polymer is described.06-13-2013

Patent applications in class From imide- or lactam-containing compound, or from an amino-nitrogen containing carboxylic acid, or derivative of an amino-nitrogen-containing carboxylic acid

Patent applications in all subclasses From imide- or lactam-containing compound, or from an amino-nitrogen containing carboxylic acid, or derivative of an amino-nitrogen-containing carboxylic acid