公开(公告)号：US12076717B2

公开(公告)日：2024-09-03

申请号：US16634787

申请日：2019-01-22

Applicant: LG CHEM, LTD.

Inventor： Sung Ho Lee ,  Sang Beom Lee ,  Joon Ho Shin ,  In Yong Jeong ,  Min Suk Kang

IPC: B01J47/016 ,  B01J39/04 ,  C07C37/20 ,  C07C37/82 ,  C07C37/84 ,  C07C39/16

CPC classification number: B01J47/016 ,  B01J39/04 ,  C07C37/20 ,  C07C37/82 ,  C07C37/84 ,  C07C39/16 ,  C07C37/20 ,  C07C39/16 ,  C07C37/84 ,  C07C39/16 ,  C07C37/82 ,  C07C39/16

Abstract: A method of washing an ion exchange resin, including washing an ion exchange resin with deionized water (DI water) one or more times to prepare a washed ion exchange resin; and storing the washed ion exchange resin in dionized water. A method for producing bisphenol A using the method of washing an ion exchange resin. The resulting bisphenol A has improved purity, thermal stability, color, and the like.

公开(公告)号：US20230323053A1

公开(公告)日：2023-10-12

申请号：US18208767

申请日：2023-06-12

Applicant: FFI IONIX IP, INC.

Inventor： Bamdad Bahar ,  Zhefei Li

IPC: C08J5/22 ,  B01J47/016 ,  B01J47/12 ,  B01J41/14

CPC classification number: C08J5/2281 ,  C08J5/2287 ,  C08J5/2231 ,  B01J47/016 ,  B01J47/12 ,  B01J41/14 ,  C08J5/2262 ,  C08J5/22 ,  B01D69/12

Abstract: An anion exchange membrane is made by mixing 2 trifluoroMethyl Ketone [nominal] (1.12 g, 4.53 mmol), 1 BiPhenyl (0.70 g, 4.53 mmol), methylene chloride (3.0 mL), trifluoromethanesulfonic acid (TFSA) (3.0 mL) to produce a pre-polymer. The pre-polymer is then functionalized to produce an anion exchange polymer. The pre-polymer may be functionalized with trimethylamamine in solution with water. The pre-polymer may be imbibed into a porous scaffold material, such as expanded polytetrafluoroethylene to produce a composite anion exchange membrane.

公开(公告)号：US11708315B2

公开(公告)日：2023-07-25

申请号：US17914677

申请日：2021-03-04

Applicant: SABIC Global Technologies B.V.

Inventor： Srikant Gopal ,  Adel Al-Dossari ,  Jintang Duan

IPC: C07C29/76 ,  B01D15/20 ,  B01J47/016 ,  B01J39/05 ,  B01D15/36 ,  B01J39/20

CPC classification number: C07C29/76 ,  B01D15/20 ,  B01D15/362 ,  B01J39/05 ,  B01J39/20 ,  B01J47/016

Abstract: Method for lowering aldehyde content in a mixture comprising (i) diethylene glycol (DEG) and/or triethylene glycol (TEG) and (ii) aldehyde are disclosed. An ion exchange resin is soaked in monoethylene glycol. The mixture comprising 5 to 200 ppm aldehyde is then flowed to make contact with the soaked ion exchange resin to produce a product comprising DEG and/or TEG and less than 15 ppm aldehyde.

公开(公告)号：US20160314865A1

公开(公告)日：2016-10-27

申请号：US15136600

申请日：2016-04-22

Applicant: Kurion, Inc.

Inventor： Joshua MERTZ ,  Ja-Kael LUEY ,  Wes BRATTON ,  Kenneth SCHOFIELD

IPC: G21F9/12 ,  B01D15/20 ,  B01J47/00 ,  B01D15/36 ,  B01J47/10 ,  B01J45/00

CPC classification number: G21F9/12 ,  B01D15/20 ,  B01D15/361 ,  B01J45/00 ,  B01J47/016 ,  B01J47/10

Abstract: Disclosed herein are systems, methods, processes, and apparatuses for treating radioactive waste, through systems designed to bind and dry radioactive media. In some of its various embodiments, the system includes at least one helical screw designed to receive and mix liquid wastes with ion exchange media, as well as convey the resulting slurry through one or more of a binding, dewatering, and drying/off-gassing region.

Abstract translation: 本文公开了通过设计用于结合和干燥放射性介质的系统来处理放射性废物的系统，方法，过程和装置。 在其各种实施例的一些中，该系统包括至少一个螺旋螺旋，其被设计成接收和混合液体废物与离子交换介质，以及将所得浆料通过一种或多种结合，脱水和干燥/脱气 地区。

公开(公告)号：US09138737B2

公开(公告)日：2015-09-22

申请号：US13818773

申请日：2011-05-03

Applicant: Bingcai Pan ,  Zhenmao Jiang ,  Weiming Zhang ,  Lu Lv ,  Yingmei Xie ,  Quanxing Zhang

Inventor： Bingcai Pan ,  Zhenmao Jiang ,  Weiming Zhang ,  Lu Lv ,  Yingmei Xie ,  Quanxing Zhang

IPC: B01J37/30 ,  B01J35/00 ,  B01J37/16 ,  C23C18/12 ,  C23C18/16 ,  B01J31/08 ,  B01J45/00 ,  B01J41/14 ,  B01J47/00

CPC classification number: B01J37/30 ,  B01J31/08 ,  B01J35/004 ,  B01J37/16 ,  B01J41/14 ,  B01J45/00 ,  B01J47/016 ,  C23C18/1216 ,  C23C18/1233 ,  C23C18/1287 ,  C23C18/1644 ,  C23C18/1658 ,  C23C18/1666

Abstract: A method for regulating the distribution of metallic nanoparticles within the resin support is provided. This method uses the ion exchange or absorption resin bearing basic functional groups as the support; firstly introducing the metal in the form of anionic complexes onto the resin support through the ion exchange process, then realizing the purpose of regulating the distribution of the metal and its compound within the resin support by means of changing the concentration of the reductive or deposition agent in water solution and the reaction time. The regulated distribution of metallic nanoparticles within the resin support is in the form of rings with different depths and densities. The different distribution patterns result in improvements upon properties of the inorganic-organic composite material, such as reaction activity, reaction selectivity and metallic stability, and has significant referential value for preparation and structural regulation of other inorganic-organic composite materials of the same kind.

Abstract translation: 提供了一种用于调节树脂载体内金属纳米粒子分布的方法。 该方法采用离子交换或吸附树脂作为载体的基础官能团; 首先通过离子交换法将阴离子配合物形式的金属引入到树脂载体上，然后通过改变还原或沉积剂的浓度来实现调节金属及其化合物在树脂载体内的分布的目的 在水溶液中和反应时间。 金属纳米粒子在树脂载体内的调节分布呈不同深度和密度的环形。 不同的分布模式导致无机 - 有机复合材料的性能的改善，如反应活性，反应选择性和金属稳定性，并且具有相同类型的其他无机 - 有机复合材料的制备和结构调节的重要参考价值。

公开(公告)号：US08980962B2

公开(公告)日：2015-03-17

申请号：US13760570

申请日：2013-02-06

Applicant: Water Security Corporation

Inventor： Sivarooban Theivendran ,  Terryll Riley Smith ,  Marian Pettibone

IPC: C02F1/50 ,  C02F1/42 ,  B01J41/12 ,  B01J49/00

CPC classification number: C02F1/50 ,  B01J41/12 ,  B01J47/016 ,  C02F1/42 ,  C02F1/766 ,  C02F2303/04

Abstract: Methods for producing or regenerating an iodinated resin are presented. The methods include converting iodide residues on a surface of and in pores of an iodide loaded anion exchange resin to iodine and iodine intermediates using a source of active halogen to form an iodinated resin having iodine and iodine intermediate residues on the surface of and in the pores of the iodinated resin. The iodinated resins show reduced and stable levels of iodine elution compared to conventional iodinated anion exchange resins and may utilizes less iodine raw materials during the manufacturing process. The iodinated resin can also act as an end-of life indicator in a water purification system that incorporates the iodinated resin to reduce microbial, including bacterial and viral, contamination in drinking water sources. Methods and systems for purifying water are also presented.

Abstract translation: 提出了生产或再生碘化树脂的方法。 所述方法包括使用活性卤素源将碘化物负载的阴离子交换树脂的表面和孔中的碘化物残余物转移到碘和碘中间体，以形成在其表面和孔中具有碘和碘中间残基的碘化树脂 的碘化树脂。 与常规碘化阴离子交换树脂相比，碘化树脂显示出降低且稳定的碘洗脱水平，并且可以在制造过程中利用较少的碘原料。 碘化树脂还可以在水净化系统中充当寿命终止指示器，该系统包含碘化树脂，以减少饮用水源中的微生物，包括细菌和病毒污染。 还提出了净化水的方法和系统。

公开(公告)号：US20150024392A1

公开(公告)日：2015-01-22

申请号：US14445990

申请日：2014-07-29

Applicant: FUJIFILM Corporation

Inventor： Taisei Nishimi ,  Toshihide Ezoe ,  Koji Kuruma ,  Masayuki Kawakami

IPC: G01N33/543

CPC classification number: G01N33/54393 ,  B01D15/361 ,  B01J20/3204 ,  B01J20/3208 ,  B01J20/3219 ,  B01J20/3221 ,  B01J20/3257 ,  B01J20/3272 ,  B01J20/3289 ,  B01J47/016 ,  B82Y15/00 ,  B82Y30/00 ,  G01N33/54373

Abstract: An object of the present invention is to provide a biosensor comprising a hydrogel capable of immobilizing a physiologically active substance thereon, which can be produced conveniently by use of a safe material, and a method for producing the same. The present invention provides a method for producing a biosensor, which comprises bringing a polymer containing an activated carboxyl group into contact with a substrate surface coated with an organic layer having an amino group to thereby bind the polymer to the organic layer.

Abstract translation: 本发明的目的是提供一种生物传感器及其制造方法，该生物传感器包括能够使其上生理活性物质固定的水凝胶，其可以通过使用安全材料方便地制备。 本发明提供一种生物传感器的制造方法，其包括使含有活性羧基的聚合物与涂布有氨基的有机层的基材表面接触，从而将聚合物与有机层结合。

公开(公告)号：US20140336355A1

公开(公告)日：2014-11-13

申请号：US14131954

申请日：2012-07-12

Applicant: Markus Arendt ,  Gerhard Stumm ,  Martin Welter ,  Thomas Schwarz

Inventor： Markus Arendt ,  Gerhard Stumm ,  Martin Welter ,  Thomas Schwarz

IPC: C07K1/18

CPC classification number: C07K1/18 ,  B01J20/261 ,  B01J20/262 ,  B01J20/28004 ,  B01J20/28019 ,  B01J20/28083 ,  B01J20/28085 ,  B01J20/321 ,  B01J20/3212 ,  B01J20/3225 ,  B01J20/327 ,  B01J20/3282 ,  B01J20/3293 ,  B01J39/05 ,  B01J39/19 ,  B01J39/20 ,  B01J47/014 ,  B01J47/016

Abstract: The present invention relates to a crosslinked sulphonated polymer or a crosslinked sulphonated polymer coated with a crosslinked polymer containing amino groups for use as an ion exchanger material of high salt tolerance for separating off macromolecules from a solution which originates from a biological source.

Abstract translation: 本发明涉及一种交联磺化聚合物或交联磺化聚合物，该交联磺化聚合物涂覆有含有氨基的交联聚合物，用作高盐耐性的离子交换材料，用于将大分子从源自生物来源的溶液中分离出来。

公开(公告)号：US20120231195A1

公开(公告)日：2012-09-13

申请号：US13416891

申请日：2012-03-09

Applicant: Christopher A. Pohl ,  Kannan Srinivasan ,  Sheetal Bhardwaj

Inventor： Christopher A. Pohl ,  Kannan Srinivasan ,  Sheetal Bhardwaj

IPC: B32B1/08 ,  C08J5/22

CPC classification number: B01J39/26 ,  B01D15/361 ,  B01J41/13 ,  B01J41/20 ,  B01J47/016 ,  Y10T428/1393

Abstract: The present invention provides a new design for high capacity stationary phases for dianion selective ion chromatography. The stationary phases include one or more layers which are products of condensation polymerization. Multiple components are of use in forming the first polymer layer and the condensation polymer structure, thereby providing a stationary phase that can be engineered to have a desired property such as ion capacity, ion selectivity, and the like. Exemplary condensation polymers are formed by the reaction of at least one polyfunctional compound with at least one compound of complimentary reactivity, e.g., a nucleophilic polyfunctional compound reacting with an electrophilic compound.

Abstract translation: 本发明提供了用于双阴离子选择性离子色谱法的高容量固定相的新设计。 固定相包括一个或多个作为缩聚产物的层。 多个组分可用于形成第一聚合物层和缩聚物结构，从而提供可被工程化以具有所需性质如离子容量，离子选择性等的固定相。 示例性缩合聚合物通过至少一种多官能化合物与至少一种互补反应性化合物的反应形成，例如与亲电子化合物反应的亲核多官能化合物。

公开(公告)号：US08147701B2

公开(公告)日：2012-04-03

申请号：US12197350

申请日：2008-08-25

Applicant: Francisco J. Cervantes ,  Jose Rene Rangel-Mendez ,  Alberto Garcia-Espinosa ,  Maria Antonieta Moreno Reynosa ,  Elias Razo-Flores

Inventor： Francisco J. Cervantes ,  Jose Rene Rangel-Mendez ,  Alberto Garcia-Espinosa ,  Maria Antonieta Moreno Reynosa ,  Elias Razo-Flores

IPC: C02F1/461

CPC classification number: C02F1/42 ,  B01D53/84 ,  B01D53/8678 ,  B01D2257/2064 ,  B01D2257/40 ,  B01D2257/70 ,  B01J31/08 ,  B01J47/016 ,  C02F3/2846 ,  C02F2001/422 ,  C02F2101/006 ,  C02F2101/308 ,  C02F2101/322 ,  C02F2101/36 ,  C02F2101/38 ,  C02F2209/02 ,  C02F2209/06 ,  C02F2209/40 ,  Y02A50/2358

Abstract: The present invention relates to a treatment process applicable to degrade or transform organic and inorganic pollutants, commonly found in industrial wastewaters, contaminated aquifers and gas emissions, in which reduction or oxidation reactions (e.g. redox reactions) are involved. The treatment concept comprises reactors in which catalysts, with redox mediating properties, have been immobilized on ion exchange resins in order to improve and accelerate the transformation of priority pollutants by chemical or biological means.

Abstract translation: 本发明涉及一种适用于降解或转化通常在工业废水中发现的有机和无机污染物，污染含水层和气体排放的处理方法，其中涉及还原或氧化反应（如氧化还原反应）。 处理概念包括反应器，其中具有氧化还原介质性质的催化剂已经固定在离子交换树脂上，以通过化学或生物方式改善和加速优先污染物的转化。