公开(公告)号：US20200286691A1

公开(公告)日：2020-09-10

申请号：US16759330

申请日：2018-07-04

Applicant: SOOCHOW UNIVERSITY ,  ZHANGJIAGANG INSTITUTE OF INDUSTRIAL TECHNOLOGIES SOOCHOW UNIVERSITY

Inventor： Aijuan GU ,  Hao FANG ,  Guozheng LIANG ,  Li YUAN

IPC: H01G11/36 ,  H01G11/24 ,  H01G11/40 ,  H01G11/86 ,  D06M11/83

Abstract: The invention discloses an aramid fiber electrode and a preparation method thereof. Silver nanoparticles, carbon nanotubes and polypyrrole were sequentially coated on the surface of the aramid fiber by chemical bonding, to prepare an aramid fiber electrode, two aramid fiber electrodes were wound with an electrolyte to obtain an aramid fiber electrochemical capacitor. Compared with the polymer fiber electrochemical capacitor prepared in the prior art, the aramid fiber electrochemical capacitor provided by the present invention has both high specific capacitance, high energy density, high mechanical performance, high stability, good flexibility and wearability. And other characteristics; the preparation method is controllable and suitable for large-scale applications.

公开(公告)号：US20200283595A1

公开(公告)日：2020-09-10

申请号：US16759327

申请日：2018-02-27

Applicant: SOOCHOW UNIVERSITY ,  ZHANGJIAGANG INSTITUTE OF INDUSTRIAL TECHNOLOGIES SOOCHOW UNIVERSITY

Inventor： Guozheng LIANG ,  Youhao ZHANG ,  Aijuan GU ,  Li YUAN

IPC: C08J11/12 ,  C08G59/42 ,  C07D327/00

Abstract: This invention provides a self-healable epoxy resin and its preparation, recycling and remolding method. With the catalyst of potassium iodide, an ester solution of 2-mercaptoacetic acid was oxidated by 30% H2O2 to form 2,2′-dithiodiacetic acid; then 2,2′-dithiodiacetic acid was dehydrated and cyclizated by anhydride to form 1,4,5-oxadithiepane-2,7-dione; 1,4,5-oxadithiepane-2,7-dione and methylhexahydrophthalic anhydride were mixed by mass ratio and cured with epoxides to get the self-healable epoxy resin. Through controlling dynamic and permanent three-dimensional crosslinked network, the self-healable epoxy resins provided in this invention exhibit high thermal resistance and improved mechanical properties as well as excellent self-healing ability, recyclability and remoldability. This invention provides a preparation method with the merits of low cost, simple production processes, broad application prospects and strong utility.

公开(公告)号：US20220325046A1

公开(公告)日：2022-10-13

申请号：US17631382

申请日：2020-07-27

Applicant: SOOCHOW UNIVERSITY

Inventor： Aijuan GU ,  Guozheng LIANG ,  Li YUAN

IPC: C08G73/12 ,  C08G73/10

Abstract: The invention discloses a remoldable shape memory bismaleimide resin and its application. The preparation method includes blending 2-allylphenyl glycidyl ether and adipic acid in acetonitrile, carrying out an esterification reaction under the condition of quaternary ammonium salt as a catalyst to obtain bis(3-(2-allylphenoxy)-2-hydroxypropyl)adipate containing a reversible dynamic group; then uniformly mixing bis(3-(2-allylphenoxy)-2-hydroxypropyl)adipate and bismaleimide, curing to obtain the remoldable shape memory bismaleimide resin. The prepared remoldable shape memory bismaleimide resin is not only excellent heat resistance and mechanical properties, but also can be remolded under hot pressing conditions. The preparation method of the remoldable shape memory bismaleimide resin has the advantages of wide raw material sources and simple process, and has a wide application prospect in the fields of aerospace, transportation, electronic information, new energy, insulated electrical industry and the like.

公开(公告)号：US20200062903A1

公开(公告)日：2020-02-27

申请号：US16466111

申请日：2016-12-03

Applicant: SOOCHOW UNIVERSITY

Inventor： Aijuan GU ,  Jiatao MIAO ,  Guozheng LIANG ,  Li YUAN

IPC: C08G73/10

Abstract: The present invention discloses a modified bismaleimide resin and preparation method thereof; under conditions of N,N-dimethylformamide serving as a catalyst, biomass-based 2,5-furandicarboxylic acid and thionyl chloride are acylated to obtain 2,5-furan diformyl chloride, which is then dissolved in dichloromethane with a biomass-based eugenol; under tertiary amine conditions an esterification reaction takes place, and a fully biomass-based bis(4-allyl-2-methoxyphenyl)furan-2,5-dicarboxylic acid ester is thus obtained; same is used for preparing a modified bismaleimide resin. The bismaleimide resin prepared by the present invention has excellent thermal properties and rigidity; the preparation method uses 2,5-furandicarboxylic acid from biomass as well as eugenol; the raw materials are green and environmentally friendly and renewable; the invention also has the feature of a simple production process, and has broad prospects for application in such fields as aeronautics and astronautics, electronic information, electrical insulation.

公开(公告)号：US20210222358A1

公开(公告)日：2021-07-22

申请号：US17052903

申请日：2018-05-10

Applicant: SOOCHOW UNIVERSITY

Inventor： Aijuan GU ,  Hua CAI ,  Guozheng LIANG ,  Li YUAN

IPC: D06M11/38 ,  D06M11/36 ,  D06M11/80 ,  D06M13/513 ,  D06M15/61

Abstract: The present invention relates to a surface-modified aramid fiber and a method for preparing the same. The method includes the following steps: modifying an aramid fiber having amino groups and carboxyl groups on the surface with siloxane γ-glycidoxypropyltrimethoxysilane to obtain a silicon methoxylated aramid fiber; reacting same with a cerium oxide coated with polydopamine modified chaotic boron nitride to obtain a surface-modified aramid fiber. The cerium oxide coated with polydopamine modified chaotic boron nitride has high ultraviolet absorption, and has extremely low catalytic activity, avoiding the damage to a fiber structure by photocatalysis during radiation, being an effective, safe and highly-efficient ultraviolet absorber. The surface-modified aramid fiber provided in the present invention has an ultraviolet-resistant function, high surface activity, good thermal performance, and better mechanical performance, providing excellent overall performance, and having higher utilization value. The method is simple and controllable, being suitable for large scale production.

公开(公告)号：US20200231742A1

公开(公告)日：2020-07-23

申请号：US16564802

申请日：2019-09-09

Applicant: SOOCHOW UNIVERSITY

Inventor： Aijuan GU ,  Zhenjie DING ,  Guozheng LIANG ,  Li YUAN

IPC: C08G59/24 ,  C08J3/24 ,  C08K5/17 ,  C08K5/20

Abstract: A preparation method of thermadapt shape memory polymers includes: (1) synthesis of pendant hydroxyl groups functionalized epoxy oligomer using epoxy resin and alcohol amine; (2) synthesis of alkoxyl groups terminated silane crosslinking agent by isocyanate silane coupling agent and diamine; (3) crosslinked shape memory polymers were prepared by condensation reaction of pendant hydroxyl groups functionalized epoxy oligomer and alkoxyl groups terminated silane crosslinking agent. The thermadapt shape memory polymers show high glass transition temperatures and high tensile strength. The original shape of thermadapt shape memory polymers can be reconfigured to a new permanent shape as needed, and thus effectively solving the bottleneck problems of reprocessing or reshape in the traditional crosslinked polymers once after molding. The thermadapt shape memory polymers are suitable for smart materials based on shape memory polymers with complex three-dimensional permanent shapes, and showing unfolding or folding behaviors along with convert to three-dimensional structures under heat stimulation.

公开(公告)号：US20190144614A1

公开(公告)日：2019-05-16

申请号：US16070272

申请日：2016-11-29

Applicant: SOOCHOW UNIVERSITY

Inventor： Guozheng LIANG ,  Sheng SUN ,  Aijuan GU ,  Li YUAN

IPC: C08J3/20 ,  C08L63/10 ,  C08L33/20 ,  C08J3/00 ,  C08J5/18 ,  C08K3/32 ,  C08K3/38 ,  C08K3/16 ,  C08K5/3445 ,  C08K5/435 ,  C08K5/41

Abstract: Disclosed are a lithium salt/polyacrylonitrile/thermosetting resin composite material and a preparation method therefor. 100 parts of polyacrylonitrile and 550-1100 parts of N,N-dimethyl formamide by mass are stirred at a temperature of 25° C.-80° C., and a uniform and transparent polyacrylonitrile solution is obtained; further, 8-36 parts of a lithium salt is added; and the mixture is stirred until a uniform and transparent lithium salt/polyacrylonitrile solution is obtained. A heat-curable resin is added to the lithium salt/polyacrylonitrile solution, and is uniformly mixed. The obtained composite solution is made into a film, and a lithium salt/polyacrylonitrile/thermosetting resin composite material is then obtained after curing and post-treatment. The lithium salt/polyacrylonitrile/thermosetting resin composite material has the advantages of a high dielectric constant and a good flexibility and transparency, and the preparation method of the composite material has the characteristics of a simple operation process, low manufacturing cost and wide applicability.

公开(公告)号：US20190031572A1

公开(公告)日：2019-01-31

申请号：US16069160

申请日：2016-11-29

Applicant: SOOCHOW UNIVERSITY

Inventor： Guozheng LIANG ,  Longhui ZHENG ,  Aijuan GU ,  Tiekuang DING ,  Li YUAN

IPC: C04B38/10 ,  C04B35/636 ,  C04B38/00 ,  C04B35/468 ,  C04B35/634

Abstract: Disclosed are a micrometer/nanometer silver-loaded barium titanate foam ceramic and a preparation method therefor. An organic additive is used as an auxiliary; deionized water is used as a solvent; nanometer barium titanate is used as a ceramic raw material; and same are mixed and ground so as to form a slurry. A pre-treated polymer sponge is impregnated in the slurry for slurry coating treatment and a barium titanate foam ceramic blank is obtained after drying; and then a barium titanate foam ceramic is obtained through sintering. Through dopamine modification, micrometer/nanometer silver is in-situ deposited on a skeleton surface so as to obtain a modified micrometer/nanometer silver-loaded barium titanate foam ceramic. The modified micrometer/nanometer silver-loaded barium titanate foam ceramic is then put into a newly prepared Tollens' reagent for further reduction so as to obtain a micrometer/nanometer silver-loaded barium titanate foam ceramic with a three-dimensional network skeleton structure.

公开(公告)号：US20220072817A1

公开(公告)日：2022-03-10

申请号：US17423257

申请日：2019-01-15

Applicant: SOOCHOW UNIVERSITY

Inventor： Aijuan GU ,  Guozheng LIANG ,  Li YUAN

IPC: B29C70/62 ,  B29C35/08 ,  C08L63/00 ,  C08J3/28 ,  C08J5/24

Abstract: This invention disclosed a resin-based composite material has a three-layer structure and the application thereof. According to the invention, an oriented carbon nanotube bundle/epoxy resin composite material (denoted as layer B) is prepared with the microwave curing method, a barium titanate nanofiber/epoxy resin composite material (denoted as layer E) is prepared by means of a blade coating-heat curing method, and a composite material of a B-E-B three layer structural is formed by means of a layer-by-layer curing technology. Compared to the composite material of the conductor-insulating layer/polymer layer structural prepared in the prior art, the resin-based composite material has a three-layer structure provided by the invention has with high energy storage density, and low dielectric loss and high permittivity; and the preparation process therefor is controllable and easy to operate, short in production cycle, and suitable for large-scale application.

公开(公告)号：US20210363315A1

公开(公告)日：2021-11-25

申请号：US17398285

申请日：2021-08-10

Applicant: SOOCHOW UNIVERSITY

Inventor： Aijuan GU ,  Guozheng LIANG ,  Li YUAN

IPC: C08J5/18 ,  C08G18/75 ,  C08G18/44 ,  C08G18/38 ,  C08G18/66 ,  C08G18/12

Abstract: A method for preparing a transparent flexible polyurethane film includes the following steps: (1) mixing a hydroxyl-terminated polyalkylene carbonate diol, a diisocyanate compound, 2,2′-dithiodiethanol, dibutyltin dilaurate and a chloroalkane solvent, and then reacting at 40 to 60° C. for 0.5 to 3 h to obtain an isocyanate-terminated oligomer solution; and (2) adding a polyol cross-linking agent, a bistrifluoromethanesulfonimide lithium salt and a 1-ethyl-3-methylimidazole bistrifluoromethanesulfonimide salt to the isocyanate-terminated oligomer solution, reacting at 40 to 60° C. for 0.5 to 1.5 h, removing the chloroalkane solvent to obtain the transparent flexible polyurethane film.