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    • 1. 发明申请
    • HYDROLYTICALLY DECOMPOSABLE IONIC COPOLYMERS
    • 水解非离子型离子共聚物
    • US20110160426A1
    • 2011-06-30
    • US12937631
    • 2009-04-09
    • Andreas GreinerSeema AgarwalThomas KisselLiqun Ren
    • Andreas GreinerSeema AgarwalThomas KisselLiqun Ren
    • C08G63/685C08G63/68C08G75/24C08G63/692C09J167/00B82Y40/00
    • C08L101/16C08F8/44C08F216/38C08F220/14C08F220/34C08F2800/10C08F120/34
    • 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.The hydrolytically degradable anionic copolymers according to the present invention are produced by polymerizing the components A, B and C in the presence of a radical initiator under inert gas atmosphere and subsequent purification.All copolymers according to the present invention are hydrolytically degradable. Copolymers comprising a maximum of 40 mol-% of ester groups in the backbone are additionally biodegradable, wherein in the case of cationic copolymers a maximum of 20 mol-% of quaternized DMAEMA is allowed to be available.Cationic copolymers comprising at least 50 mol-% of the component B are antimicrobial.Both anionic as well as cationic copolymers are suitable for producing nanoparticles. Cationic copolymers are suitable for being used as superhydrophobic materials as well as adhesives. Anionic copolymers are suitable for biodegradable thermoplastic elastomers and for biodegradable ionomers.
    • 本发明提供了可水解降解的离子共聚物。 这些离子共聚物由选自2-甲基 - 甲基丙烯酸酯,[2-(2-甲基-1-亚甲基 - 烯丙氧基)]乙磺酸酯,[2-(2-甲基-1-亚甲基 - 烯丙氧基)]乙磺酸的一种环状烯酮缩醛A,一种阴离子或阳离子甲基丙烯酸衍生物B组成, 2-甲基-1-亚甲基 - 烯丙氧基)乙基]膦酸酯或N,N-二甲基氨基乙基甲基丙烯酸(DMAEMA)和任选的中性甲基丙烯酸衍生物C的季胺。根据本发明的可水解降解的阴离子共聚物是 通过在惰性气体气氛下在自由基引发剂的存在下将组分A,B和C聚合并随后纯化而制备。 根据本发明的所有共聚物都是可水解降解的。 在主链中包含最多40mol%的酯基的共聚物另外是可生物降解的,其中在阳离子共聚物的情况下,允许最多20mol%的季铵化DMAEMA可用。 包含至少50mol%的组分B的阳离子共聚物是抗微生物剂。 阴离子和阳离子共聚物都适用于生产纳米颗粒。 阳离子共聚物适合用作超疏水材料以及粘合剂。 阴离子共聚物适用于可生物降解的热塑性弹性体和可生物降解的离聚物。
    • 2. 发明授权
    • Hydrolytically decomposable ionic copolymers
    • 水解可分解的离子共聚物
    • US09068065B2
    • 2015-06-30
    • US12937631
    • 2009-04-09
    • Andreas GreinerSeema AgarwalThomas KisselLiqun Ren
    • Andreas GreinerSeema AgarwalThomas KisselLiqun Ren
    • C08F20/06C08L101/16C08F8/44C08F220/34C08F216/38C08F220/14
    • C08L101/16C08F8/44C08F216/38C08F220/14C08F220/34C08F2800/10C08F120/34
    • 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.The hydrolytically degradable anionic copolymers according to the present invention are produced by polymerizing the components A, B and C in the presence of a radical initiator under inert gas atmosphere and subsequent purification.All copolymers according to the present invention are hydrolytically degradable. Copolymers comprising a maximum of 40 mol-% of ester groups in the backbone are additionally biodegradable, wherein in the case of cationic copolymers a maximum of 20 mol-% of quaternized DMAEMA is allowed to be available.Cationic copolymers comprising at least 50 mol-% of the component B are antimicrobial.Both anionic as well as cationic copolymers are suitable for producing nanoparticles. Cationic copolymers are suitable for being used as superhydrophobic materials as well as adhesives. Anionic copolymers are suitable for biodegradable thermoplastic elastomers and for biodegradable ionomers.
    • 本发明提供了可水解降解的离子共聚物。 这些离子共聚物由选自2-甲基 - 甲基丙烯酸酯,[2-(2-甲基-1-亚甲基 - 烯丙氧基)]乙磺酸酯,[2-(2-甲基-1-亚甲基 - 烯丙氧基)]乙磺酸的一种环状烯酮缩醛A,一种阴离子或阳离子甲基丙烯酸衍生物B组成, 2-甲基-1-亚甲基 - 烯丙氧基)乙基]膦酸酯或N,N-二甲基氨基乙基甲基丙烯酸(DMAEMA)和任选的中性甲基丙烯酸衍生物C的季胺。根据本发明的可水解降解的阴离子共聚物是 通过在惰性气体气氛下在自由基引发剂的存在下将组分A,B和C聚合并随后纯化而制备。 根据本发明的所有共聚物都是可水解降解的。 在主链中包含最多40mol%的酯基的共聚物另外是可生物降解的,其中在阳离子共聚物的情况下,允许最多20mol%的季铵化DMAEMA可用。 包含至少50mol%的组分B的阳离子共聚物是抗微生物剂。 阴离子和阳离子共聚物都适用于生产纳米颗粒。 阳离子共聚物适合用作超疏水材料以及粘合剂。 阴离子共聚物适用于可生物降解的热塑性弹性体和可生物降解的离聚物。
    • 5. 发明申请
    • Electrospun Polymer Fibers Comprising Particles of Bacteria-Containing Hydrogels
    • 包含含细菌水凝胶颗粒的电纺聚合物纤维
    • US20120107900A1
    • 2012-05-03
    • US13139990
    • 2009-12-18
    • Andreas GreinerSeema AgarwalMarco Gensheimer
    • Andreas GreinerSeema AgarwalMarco Gensheimer
    • C12N11/12B29C47/00C12N11/08
    • C12N1/04C12N11/04D01D5/0007D01F1/10
    • The present invention provides electrospun polymer fibers comprising bacteria-containing hydrogel particles. Bacteria-containing hydrogel particles are produced by crosslinking water-soluble polymers to form hydrogels and mixing them with a bacteria suspension. The crosslinking is suitable to be carried out either chemically before the addition of the bacteria suspension or physically before or after this addition. Subsequently, these hydrogel particles are electrospun together with an electrospinnable polymer solution to form fibers or fibre non-wovens.The bacteria which are located in these hydrogel particles or in the electrospun polymer fibers comprising these particles, respectively, are capable of surviving for a long period (several months) without the supply of water or cell-culture media and are simultaneously protected against the effect of solvents, for example alcohols, acetone, chlorinated hydrocarbons, ethers and toluene, which would otherwise kill said bacteria. The bacteria are suitable to be released again at any time through contact with water and to be replicated under normal culture conditions.The electrospun polymer fibers according to the present invention comprising bacteria-containing hydrogels are suitable for use in the dry storage of useful bacteria or for killing harmful bacteria. Textiles and membranes, for example, are suitable to be equipped with it. However, they are also suitable for applications in wastewater treatment, environmental protection (water pollution control), the agricultural and food sector, pharmacy, fermentation, and the building industry.
    • 本发明提供了包含含细菌的水凝胶颗粒的电纺聚合物纤维。 通过交联水溶性聚合物以形成水凝胶并将其与细菌悬浮液混合来制备含细菌的水凝胶颗粒。 交联适用于在添加细菌悬浮液之前进行化学反应,或在物理加入之前或之后进行。 随后,将这些水凝胶颗粒与电纺丝聚合物溶液一起电纺丝以形成纤维或纤维无纺布。 分别位于这些水凝胶颗粒或包含这些颗粒的电纺聚合物纤维中的细菌能够长时间(几个月)存活,而不需要供应水或细胞培养基,并同时被保护免受影响 的溶剂,例如醇,丙酮,氯代烃,醚和甲苯,否则会杀死所述细菌。 细菌可以随时通过与水接触再次释放并在正常培养条件下复制。 包含含细菌水凝胶的本发明的电纺聚合物纤维适用于干燥储存有用细菌或杀死有害细菌。 纺织品和膜例如适合配备它。 但也适用于污水处理,环境保护(水污染防治),农副食品,制药,发酵,建筑等行业。
    • 8. 发明申请
    • Method for Producing Metal-containing Nanoparticles Enveloped with Polymers and Particles that can be Obtained Therefrom
    • 生产含有聚合物和颗粒的含金属纳米颗粒的方法
    • US20120302703A1
    • 2012-11-29
    • US13147146
    • 2010-02-01
    • Andreas GreinerSeema AgarwalJulia SchmidtStefan Bokern
    • Andreas GreinerSeema AgarwalJulia SchmidtStefan Bokern
    • C08F8/42C08F20/14C08F12/08B82Y99/00
    • C08F6/12A01N55/00B01J13/02B82Y30/00C08K3/08C08K9/08C08K9/10C09D5/14C09D5/24C09D7/62A01N25/26A01N25/34A01N2300/00
    • The present invention provides a method to produce metal-containing nanoparticles enveloped with polymers, as well as particles obtainable therefrom.In the method according to the present invention, at least one anionic polymerizable monomer is polymerized in the presence of an anionic macroinitiator at room temperature. Subsequently, an aliphatic or aromatic sulfide is firstly added, followed by a solution of at least one organosoluble metal salt in an aprotic organic solvent and finally a homogeneous reducing agent. The metal cation is hereby reduced to the metal. Metal-containing nanoparticles are formed which are covalently bonded to the growing anionic polymerizates.The metal salts are preferably salts of silver, copper, gold, tin, lead, chrome or zinc, or mixtures thereof. Anionic polymerizable monomers comprise, by way of example, styrene (St), butadiene, isoprene, ethylene oxide, propylene oxide, caprolactone, lactide, glycolide, acrylates, methacrylates, bisacrylates, cyanoacrylates, amides, siloxanes, vinylpyridines or acrylonitrile.The particles according to the present invention are suitable to be used for the antibacterial finishing of polymers in textiles and materials. Furthermore, they are suitable for the production of inks. If the underlying metals are those metals that show plasmon resonance, the particles are suitable to also be applied in sensors which use the plasmon resonance effect.The metal-containing nanoparticles enveloped with polymers which are accessible using the method according to the present invention do not aggregate or agglomerate, and their physical and chemical properties remain unchanged over a long period of time.
    • 本发明提供一种制备包封有聚合物的含金属纳米颗粒的方法,以及由其获得的颗粒。 在根据本发明的方法中,至少一种阴离子可聚合单体在阴离子大分子引发剂的存在下在室温下聚合。 随后,首先加入脂族或芳族硫化物,然后加入至少一种有机溶剂金属盐在非质子有机溶剂中的溶液,最后加入均匀的还原剂。 因此金属阳离子被还原成金属。 形成含金属的纳米颗粒,其与生长的阴离子聚合物共价键合。 金属盐优选为银,铜,金,锡,铅,铬或锌的盐,或其混合物。 阴离子可聚合单体包括例如苯乙烯(St),丁二烯,异戊二烯,环氧乙烷,环氧丙烷,己内酯,丙交酯,乙交酯,丙烯酸酯,甲基丙烯酸酯,双丙烯酸酯,氰基丙烯酸酯,酰胺,硅氧烷,乙烯基吡啶或丙烯腈。 根据本发明的颗粒适合用于织物和材料中聚合物的抗菌整理。 此外,它们适用于油墨的生产。 如果下面的金属是显示等离子体共振的那些金属,则该颗粒也适用于也使用等离子体共振效应的传感器。 用聚合物包裹的含金属纳米颗粒可以使用根据本发明的方法进行接触,不会聚集或附聚,并且其物理和化学性质在长时间内保持不变。