Machine Learning Based Patent Search

  • Up to 20,000 keyword-based search results can be machine ranked in relation to these categories:
    - Lithium-ion batteries - electrolytes - liquid
    - Lithium-ion batteries - electrolytes - solid & gel
    - Lithium-ion batteries - negative electrode
    - Lithium-ion batteries - positive electrode
    - Lithium-ion batteries - separators
    - Lithium-sulfur batteries
    - Supercapacitors
  • Google and b-science.net translations are provided if a patent family or applicant misses an English version.

Use Case - Solid/Gel Electrolytes

  • In this use case, we were interested in the most relevant Li-ion battery solid or gel electrolyte patents that relate to sulfur and polymers, published between 2018-03-01 and 2018-06-29.
  • 98 patent families with matching keywords were ranked using the ML model 'Lithium-ion batteries - electrolytes - solid & gel'.
  • All 16 relevant matches are listed within the top 20 results, while 78 remaining matches with lower scores relate to other topics.
  • Substantial time savings can be achieved with this novel approach, especially for large result sets with up to 20,000 entries.

Ranking according to curated machine learning model 17
Lithium-ion batteries - electrolytes - solid & gel

Number of machine ranked patent families: 98

Search terms:
Title or abstract 1: sulf* / Title or abstract 2: sulph*
Refined title or abstract 1: polymer*
Publication date (from): 2018-03-01 / Publication date (until): 2018-06-29

Results
Entry Machine Rating Patent ID
Publication Date
Details
1 110 CN 107968219 A
27-04-2018
EPO Reference
Titles:
Inorganic solid electrolyte film and its preparation method and inorganic all-solid-state battery
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无机固态电解质薄膜及其制备方法及无机全固态电池

Abstracts:

The invention provides a kind of inorganic solid electrolyte membrane, a preparation method thereof and an inorganic all-solid-state battery. The inorganic solid electrolyte membrane includes a polymer matrix and inorganic electrolyte particles. The inorganic electrolyte particles form a single particle dispersed layer and are dispersed in the polymer matrix, and both the head and the tail of the inorganic electrolyte particles are exposed to the polymer matrix. The inorganic electrolyte particles include a sulfur-based solid electrolyte. When the inorganic solid electrolyte film of the present invention is applied to an inorganic all-solid-state battery, the energy density of the inorganic all-solid battery can be significantly improved and the cycle performance is greatly improved.
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本发明提供种无机固态电解质薄膜及其制备方法以及无机全固态电池。所述无机固态电解质薄膜包括聚合物基体以及无机电解质颗粒。所述无机电解质颗粒形成单颗粒分散层并分散于所述聚合物基体,且所述无机电解质颗粒的头部和尾部均露出于所述聚合物基体。所述无机电解质颗粒包括硫系固态电解质。当本发明的无机固态电解质薄膜应用到无机全固态电池中后,能够显著提高无机全固态电池的能量密度并大大改善循环性能。

Applicant:
Dongguan Amperex Technology Ltd. (东莞新能源科技有限公司)
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Inventor:
安黎

2 92 CN 107978789 A
01-05-2018
EPO Reference
Titles:
Polymer conductive fiber toughened sulfide composite electrolyte
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种聚合物导电纤维增韧的硫化物复合电解质

Abstracts:

The invention discloses a kind of polymer conductive fiber toughened sulfide composite electrolyte and its application in a room temperature all-solid-state lithium battery. Biomimetic simulation of the toughening behavior of bamboo fiber in the natural world. Composite lithium ion-conducting fibers with nano-polymers in sulfide inorganic fast ion conductors. Fiber lengths of 1–1000 μm, diameters of 10–1000 nm, arranged parallel to the same direction, Conductive fibers are evenly distributed on the surface or inside of the composite structure. This structure improves the ability of the sulfide inorganic fast ion conductor to resist stress deformation, and the fracture strength of the inorganic sulfide fast ion conductor is increased from not more than 0.70 MPam to 1.2 1.41.4 MPam. The invention also discloses an all-solid lithium battery assembled by the above composite electrolyte structure.
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本发明公开了种聚合物导电纤维增韧的硫化物复合电解质及其在室温全固态锂电池中的应用。通过仿生模拟自然界中竹纤维对竹体的增韧行为,向硫化物无机快离子导体中复合维纳米聚合物锂离子导电纤维,纤维长1‑1000μm,直径10‑1000nm,按同方向平行排列,导电纤维均匀分布于复合结构的表面或内部。此结构提高了硫化物无机快离子导体抵御受力变形的能力,将无机硫化物快离子导体的断裂强度由不高于0.70MPam提高到1.2‑1.4MPam。本发明还公开了上述复合电解质结构所组装的全固态锂电池。

Applicant:
Chinese Academy of Sciences Qingdao Institute of Bioenergy and Processes (中国科学院青岛生物能源与过程研究所)
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Inventors:
崔光磊
鞠江伟
徐红霞
陈兵兵
王延涛
崔艳艳

3 90 KR 20180036410 A
09-04-2018
EPO Reference
Titles:
All solid state battery
전고체 전지

Abstracts:

More particularly, the present invention relates to an all solid-state battery comprising a positive electrode, a negative electrode and a sulfide-based solid electrolyte interposed therebetween, wherein the lithium-ion conductive polymer and the lithium- The present invention relates to a pre-solid battery comprising a buffer layer comprising a lithium salt. The entire solid-state cell can realize a high-capacity battery having a stable cycle performance by suppressing an increase in resistance occurring at the interface between the sulfide-based solid electrolyte and the cathode due to the buffer layer.
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본 발명은 전고체 전지에 관한 것으로, 더욱 상세하게는 양극과 음극 및 이들 사이에 개재된 황화물계 고체 전해질을 구비한 전고체 전지에 있어서, 상기 음극과 황화물계 고체 전해질 사이에 리튬 이온 전도성 고분자 및 리튬염을 포함하는 버퍼층을 포함하는 것을 특징으로 하는 전고체 전지에 관한 것이다. 상기 전고체 전지는 버퍼층으로 인해 황화물계 고체 전해질과 음극의 계면에서 발생하는 저항 증가를 억제하여 안정한 사이클 성능을 갖는 고용량의 전지 구현을 가능케 한다.

Applicant:
LG CHEMICAL LTD [KR] (주식회사 엘지화학)

Inventors:
SUNG DA YOUNG [KR] (성다영)
PARK EUN KYUNG [KR] (박은경)
JANG MIN CHUL [KR] (장민철)

4 87 US 2018108943 A1
19-04-2018
EPO Reference
Title:
SOLID ELECTROLYTE COMPOSITION, METHOD FOR PREPARING SAME, AND METHOD FOR MANUFACTURING ALL-SOLID-STATE BATTERY USING SAME

Abstract:

Provided is a solid electrolyte composition including a solid electrolyte with a protective layer provided on a surface thereof, and a polymer binder. The protective layer includes at least one of an inorganic layer, including at least one of an oxide, a nitride, and a sulfide, an organic layer, including a polydopamine derivative, and a self-assembled monolayer, including an organosilane.

Applicant:
ELECTRONICS AND TELECOMMUNICATIONS RES INSTITUTE [KR]

Inventors:
SHIN DONG OK [KR]
LEE YOUNG-GI [KR]
KIM KWANG MAN [KR]
KIM JU YOUNG [KR]

5 83 KR 20180043152 A
27-04-2018
EPO Reference
Titles:
SOLID ELECTROLYTE COMPOSITION METHOD OF FORMING THE SAME AND METHOD OF FORMING ALL-SOLID-STATE BATTERIES USING THE SAME
고체 전해질 조성물, 이의 제조방법, 및 이를 이용한 전고체 전지의 제조방법

Abstracts:

The solid electrolyte composition comprises: a solid electrolyte having a protective layer formed on its surface; And a polymer binder. Wherein the protective layer comprises at least one of an inorganic layer comprising at least one of an oxide, a nitride and a sulphide, an organic layer comprising a polydopamine derivative, and a self-assembled monolayer comprising an organosilane do.
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고체 전해질 조성물은 그 표면에 보호층이 형성된 고체 전해질; 및 고분자 결착제(polymer binder)를 포함한다. 상기 보호층은 산화물, 질화물, 및 황화물 중 적어도 하나를 포함하는 무기층, 폴리도파민 유도체를 포함하는 유기층, 및 유기 실란(organosilane)을 포함하는 자기조립단분자층(self-assembled monolayer) 중 적어도 하나를 포함한다.

Applicant:
ELECTRONICS AND TELECOMMUNICATIONS RES INSTITUTE [KR] (한국전자통신연구원)

Inventors:
SHIN DONG OK [KR] (신동옥)
LEE YOUNG GI [KR] (이영기)
KIM KWANG MAN [KR] (김광만)
KIM JU YOUNG [KR] (김주영)

6 81 CN 107919496 A
17-04-2018
EPO Reference
Titles:
Method for preparing semi-interpenetrating network-like single-ionic solid polymer electrolyte by in-situ polymerization method
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种利用原位聚合法制备半互穿网络结构的类单离子固态聚合物电解质的方法

Abstracts:

This patent discloses a method for preparing a semi-interpenetrating network-like single-ionic solid polymer electrolyte by using an in-situ polymerization method. Specifically, the polymer is dissolved in a suitable solvent, and a homogeneous mixed solution is prepared. The body, initiator, crosslinking agent and lithium salt of 2-acrylamido-2-methylpropane sulfonic acid are added to the polymer solution, and after stirring, the air in the solution is removed by ultrasonication, and then the temperature is 50-70°C. The polymerization was initiated in a vacuum drying oven, and the temperature was raised to 80° C. After the solvent evaporated, the polymer electrolyte membrane was formed. The prepared polymer electrolyte membrane is a cross-linked polymer membrane with a semi-interpenetrating network structure, and the mechanical strength of the polymer membrane is high; anions are fixed on the polymer chain segments, lithium ions migrate more easily, and the polymer electrolyte can be increased The ionic conductivity; Simultaneously, this method is simple in preparation process, does not require complicated process flow, and the prepared polymer electrolyte membrane has excellent processing performance.
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本专利公开了种利用原位聚合法制备半互穿网络结构的类单离子固态聚合物电解质的方法,具体为将高聚物溶解在适宜的溶剂中,配制成均的混合溶液,然后将单体、引发剂、交联剂和2‑丙烯酰胺基‑2‑甲基丙磺酸锂盐加入到高聚物溶液中,搅拌均匀后,经超声除去溶液中的空气,然后在50~70℃的真空干燥箱中引发聚合,再升温至80℃,待溶剂挥发后即成聚合物电解质膜。所制备的聚合物电解质膜是种半互穿网络结构的交联聚合物膜,聚合物膜的机械强度高;阴离子固定在聚合物链段上,锂离子的迁移更加容易,可以提高聚合物电解质的离子电导率;同时该方法制备过程简单,不需要复杂的工艺流程,所制备的聚合物电解质膜具有优异的加工性能。

Applicant:
Qilu University of Technology (齐鲁工业大学)
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Inventors:
刘伟良
陈立宁
朱文凯
王凡
孔凡功
王守娟

7 75 CN 107799810 A
13-03-2018
EPO Reference
Titles:
Battery electrolyte adhesive
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种电池电解质膜的粘合剂

Abstracts:

The invention relates to the technical field of battery electrolytes, in particular to binders for seed cell electrolyte membranes; the binder comprises at least a crosslinked polymer, the crosslinked polymer is a block copolymer, and the block copolymer is The material includes a polymer block and a flexible polymer block, the main unit of the polymer block is an aromatic propylene-based polymer unit, the polymer block has a monovalent anion-conducting group, and polymer block and flexible polymerization The mass ratio between the material blocks is 10:90 to 90:10; the binder of the battery electrolyte of the present invention has a low production cost and is environmentally safe, and at the same time, the binder for the battery electrolyte of the present invention is for polymerization. The substance electrolyte membrane has a greater affinity, which can improve the interface characteristics and improve the long-term stability of the battery. According to an embodiment of the present invention, a large amount of a proton conductive polymer such as a sulfonic acid group in a binder resin provides high proton conductivity. Therefore, it has higher ion exchange capacity than other polymers.
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本发明涉及电池电解液技术领域,尤其是种电池电解质膜的粘合剂;所述粘合剂包括至少种交联聚合物,所述交联聚合物为嵌段共聚物,所述嵌段共聚物包括聚合物嵌段和柔性的聚合物嵌段,聚合物嵌段的主要单元是芳族丙烯基聚合物单元,聚合物嵌段具有单价的阴离子传导基团;聚合物嵌段与柔性的聚合物嵌段之间的质量比为10:90至90:10;本发明的电池电解质的粘合剂,生产成本低,使用环保安全,同时,本发明的电池电解质用的粘合剂,对聚合物电解质膜具有更大的亲和力,其能改进界面特性和改进电池的长期稳定性。根据本发明的实施方案,粘合剂树脂中的大量质子导电聚合物如磺酸基提供高的质子导电性。因此,它比其他的聚合物具有更高的离子交换能力。

Applicant:
Yang Chang-en (杨昌恩)
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Inventor:
杨昌恩

8 70 JP 2018030959 A
01-03-2018
EPO Reference
Titles:
Polymer, crosslinked polymer, polymer gel electrolyte, method for producing polymer gel electrolyte, and magnesium battery
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ポリマー、架橋ポリマー、ポリマーゲル電解質、ポリマーゲル電解質の製造方法、及びマグネシウム電池

Abstracts:

PROBLEM TO BE SOLVED: To provide a novel polymer having a simple and flexible molecular structure for synthesis. A polymer represented by the following formula (1). In the formula (1), R1 represents an imidazole group, a hydroxyl group, an aliphatic amino group, a thiol group, a halogen atom, a sulfonic acid ester group, an epoxy group, an isocyanate group, an azide group, a vinyl group or an ethynyl group , X1 is selected from the group consisting of a single bond, an alkylene group having 1 to 6 carbon atoms, an arylene group having 6 to 20 carbon atoms, or an alkylene group having 1 to 6 carbon atoms and an arylene group having 6 to 20 carbon atoms T1 represents an integer of 3 or more and 6 or less, n1 represents an integer of 1 or more and 70 or less, m1 represents an integer of 2 or more and 4 or less, Or an integer of 6 to 8 inclusive. 【Selection drawing】 None
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【課題】合成が簡便で柔軟な分子構造を有する新規なポリマーを提供する。【解決手段】下記式(1)で表されるポリマー。但し、式(1)において、R1は、イミダゾール基、ヒドロキシ基、脂肪族アミノ基、チオール基、ハロゲン原子、スルホン酸エステル基、エポキシ基、イソシアナート基、アジド基、ビニル基、又はエチニル基を表し、X1は、単結合、炭素数1〜6のアルキレン基、炭素数6〜20のアリーレン基、又は、炭素数1〜6のアルキレン基及び炭素数6〜20のアリーレン基からなる群より選択される2以上の基からなる連結基を表し、t1は、3以上6以下の整数を表し、n1は、1以上70以下の整数を表し、m1は、2以上4以下の整数を表すか、もしくは6以上8以下の整数を表す。【選択図】なし

Applicant:
Tokyo University of Agriculture and Technology (国立大学法人東京農工大学)
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Inventors:
富永 洋一
尾池 秀章
古賀 舞都

9 66 KR 20180057558 A
30-05-2018
EPO Reference
Titles:
A METHOD FOR MANUFACTURING A SULFIDE-BASED SOLID ELECTROLYTE SHEET AND A SULFIDE-BASED SOLID ELECTROLYTE SHEET MADE THEREBY
황화물계 고체 전해질 시트의 제조 방법 및 상기 방법에 의해 제조된 황화물계 고체 전해질 시트

Abstracts:

The present invention relates to a method of manufacturing a solid electrolyte sheet to solve the above technical problems. A first aspect of the present invention is directed to the above method, wherein the method comprises: (S10) preparing a first dispersion slurry comprising a monomer, a polymerization initiator and a solvent; (S20) mixing the dispersion slurry with the sulfide-based solid electrolyte particles to prepare a second dispersion slurry; (S30) applying the second slurry to the surface of the release paper; And (S40) drying the second slurry applied to the release surface. Here, the solvent of (S10) is a non-polar solvent.
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본 발명은 상기 기술적 과제를 해결하기 위한 고체 전해질 시트 제조 방법에 대한 것이다. 본 발명의 제1 측면은 상기 방법에 대한 것으로서, 상기 방법은 (S10) 모노머, 중합 개시제 및 용매를 포함하는 제1 분산 슬러리를 준비하는 단계; (S20) 상기 분산 슬러리에 황화물계 고체 전해질 입자를 혼합하여 제2 분산 슬러리를 준비하는 단계; (S30) 상기 제2 슬러리를 박리지 표면에 도포하는 단계; 및 (S40) 박리지 표면에 도포된 상기 제2 슬러리를 건조하는 단계;를 포함한다. 여기에서 상기 (S10)의 용매는 비극성 용매인 것이다.

Applicant:
LG CHEMICAL LTD [KR] (주식회사 엘지화학)

Inventors:
CHO SUNG JU (조성주)
HAN HYEA EUN (한혜은)

10 58 JP 2018055877 A
05-04-2018
EPO Reference
Titles:
Solid polymer electrolyte membrane and manufacturing method thereof, membrane electrode assembly for solid polymer fuel cell, and solid polymer fuel cell
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固体高分子電解質膜およびその製造方法、固体高分子形燃料電池用膜電極接合体、ならびに固体高分子形燃料電池

Abstracts:

Applicant:
Asahi Glass Co., Ltd. (旭硝子株式会社)
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Inventors:
平居 丈嗣
渡部 浩行
奥山 匠

11 58 CN 207265175 U
20-04-2018
EPO Reference
Titles:
Sulfur semi-solid lithium battery
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硫系半固态锂电池

Abstracts:

The utility model discloses a seed sulfur-based semi-solid lithium battery, comprising a shell, a lithium polymer battery core, a battery circuit board and an FPC cable, wherein the lithium polymer battery core and the battery circuit board are respectively arranged in a casing; The lithium polymer battery includes a semi-solid sulfur-based positive electrode, a lithium-sheet negative electrode, and a semi-solid electrolyte membrane disposed between the semi-solid sulfur-based positive electrode and the lithium negative electrode. The battery circuit board is respectively connected to the lithium polymer battery. In the FPC line, a temperature thermistor is disposed on the battery circuit board, and a connector male seat is disposed on the top side of the outer end of the FPC cable. The outer end of the FPC cable corresponds to the back side of the connector where the male seat is located. Reinforced steel sheet. In this way, a semi-solid sulfur-based positive electrode, a lithium negative electrode, and a semi-solid electrolyte membrane are used to obtain better electrical conductivity of the product and the stability of the storage of the semi-solid sulfur-based positive electrode. At the same time, they are charged during operation. , discharge current can be stabilized in a more suitable range, the use of strong security.
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本实用新型公开种硫系半固态锂电池,包括有外壳、锂聚合物电芯、电池线路板及FPC线,其中,所述锂聚合物电芯、电池线路板分别设置于外壳内;所述锂聚合物电芯包括有半固态硫系正极、锂片负极以及设置于半固态硫系正极、锂片负极之间的半固态电解质膜;所述电池线路板分别连接于锂聚合物电芯、FPC线,所述电池线路板上设置有温度热敏电阻,FPC线的外端部顶侧设置有连接器公座,FPC线的外端部对应连接器公座所在部位的背侧贴设有补强钢片。藉此,其通过半固态硫系正极、锂片负极及半固态电解质膜的设置,获得产品的较好电导率及半固态硫系正极的储能稳定性,同时,其在工作过程中的充、放电流能够稳定在较合适的范围,使用安全性能强。

Applicant:
Reliance Electronics (Dongguan) Co., Ltd. (佰力电子(东莞)有限公司)
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Inventor:
罗皓

12 53 CN 107799795 A
13-03-2018
EPO Reference
Titles:
Battery electrolyte membrane
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种电池电解质膜

Abstracts:

The invention relates to the technical field of battery electrolytes, in particular to a kind of battery electrolyte membrane, comprising a separator coated with a polymer coating, wherein the mass composition of the polymer coating is as follows: low polyether grafted polyphosphorus 10-20 parts of nitrile polymer, 5-12 parts of lithium salt, 10-20 parts of 1-methyl-2-pyrrolidone, 12-20 parts of dimethylformamide, 10-20 parts of dimethyl sulfoxide, tetrahydrofuran 5‐ 10 parts, 0.5 to 1.6 parts of Ni or Ni oxides; the electrolyte electrolyte film of the present invention has a reasonable distribution ratio; the operability of the present invention is strong, and the prepared low-polyether grafted polyphosphazene-based polymer electrolyte membrane can be used as lithium. The polymer electrolyte of the ion secondary battery uses the method provided by the present invention to prepare the polymer electrolyte membrane, improves the lithium ion conductivity and the lithium ion migration number of the polymer electrolyte membrane, and improves the safety performance of the lithium ion battery, and at the same time, the obtained The polymer electrolyte membrane has better elasticity and processing properties and has better mechanical properties.
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本发明涉及电池电解液技术领域,尤其是种电池电解质膜;包括隔膜,所述隔膜上涂覆有聚合物涂层,所述聚合物涂层的质量份组成如下:低聚醚接枝聚磷腈聚合物10‑20份、锂盐5‑12份、1‑甲基‑2‑吡咯烷酮10‑20份、二甲基甲酰胺12‑20份、二甲亚砜10‑20份、四氢呋喃5‑10份、Ni或Ni的氧化物0.5‑1.6份;本发明的电池电解质膜成分配比合理,本发明可操作性强,制备的低聚醚接枝聚磷腈基聚合物电解质膜可以作为锂离子二次电池的聚合物电解质,使用本发明提供的方法制备聚合物电解质膜改善了聚合物电解 质膜的锂离子电导率和锂离子迁移数,提高了锂离子电池的安全性能,同时,获得的聚合物 电解质膜具有较好的弹性和加工性能,并具有较好的机械性能。

Applicant:
Yang Chang-en (杨昌恩)
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Inventor:
杨昌恩

13 52 CN 108122688 A
05-06-2018
EPO Reference
Titles:
Preparation method of flexible electrochemical electrode applicable to all-solid-state energy storage device
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种可用于全固态储能器件的柔性电化学电极的制备方法

Abstracts:

The present invention relates to the field of electrochemical electrode materials, and more particularly, to a method for preparing a flexible electrochemical electrode that can be used for an all-solid-state energy storage device. In order to solve the cumbersome problems in the preparation method existing in the prior art, it is also necessary to solve the problems of low conductivity, unstable performance and poor electrochemical performance of the electrodes prepared in the prior art. The steps adopted in the present invention are as follows: S1 , electrodepositing a nano-metal layer on a flexible substrate; S2 , placing the flexible substrate of the covering metal layer into an acidic aqueous solution of a conductive polymer monomer, and introducing 0.5 to 1.0 V DC. Uniform growth of the conductive polymer monomer covers the nano metal layer to obtain a conductive polymer film; S3 , the solid electrolyte is coated on the above flexible electrode and encapsulated into an energy storage device. The solid electrolyte is based on polyvinyl alcohol. To polyaniline sulfonic acid electrolyte.
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本发明涉及电化学电极材料领域,更具体地,涉及种可用于全固态储能器件的柔性电化学电极的制备方法。以解决现有技术存在的制备方法步骤繁琐的问题,还要解决现有技术制备出的电极存在的导电性低、性能不稳定和电化学性能不良的问题。本发明采用的步骤为:S1、在柔性基底上电沉积纳米金属层;S2、将所述覆盖金属层的柔性基底放入导电高分子单体的酸性水溶液中,通入0.5~1.0V直流电,使导电高分子单体均匀的生长覆盖在纳米金属层上,得到层导电高分子膜;S3、将固态电解质涂敷于上述柔性电极上并封装为储能器件,固态电解质以聚乙烯醇为基体,以聚苯胺磺酸为电解质。

Applicant:
Xian University of Technology (西安工业大学)
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Inventors:
王素敏
王奇观
张开
申婧文
李璐

14 50 CN 107799819 A
13-03-2018
EPO Reference
Titles:
Composite polymer electrolyte membrane
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种复合聚合物电解质膜

Abstracts:

The invention relates to the technical field of batteries, in particular to a kind of composite polymer electrolyte membrane; its mass composition is as follows: 8 to 16 parts of lithium phosphate, 10 to 50 parts of chitosan film material, 8 to 16 parts of polyethylenediamine, polyethylenimine 5 to 10 parts of diether, 0.1 to 0.9 parts of ion-conducting polymer material, 3 to 8 parts of polybenzimidazole, 10 to 15 parts of polyphenylene ether sulfone, 1-3 parts of adhesive, and 0.6 surfactant ‐ 2.6 parts; the electrolyte membrane in the present invention includes lithium phosphate, chitosan membrane material, polyethylenediamine, polyethylene oxide, ion conductive polymer material, polybenzimidazole, polyphenylene ether sulfone, The use of adhesives and surfactants improves the thermal stability and electrochemical performance of the electrolyte membrane.
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本发明涉及电池技术领域,尤其是种复合聚合物电解质膜;其质量份组成如下:磷酸锂8‑16份、壳聚糖膜材料10‑50份、聚乙二胺8‑16份、聚乙二醚5‑10份、离子导电性高分子材料0.1‑0.9份、聚苯并咪唑3‑8份、聚亚苯基醚砜10‑15份、胶黏剂1‑3份、表面活性剂0.6‑2.6份;本发明中的电解质膜通过将磷酸锂、壳聚糖膜材料、聚乙二胺、聚乙二醚、离子导电性高分子材料、聚苯并咪唑、聚亚苯基醚砜、胶黏剂、表面活性剂配伍使用,提高了电解质膜的热稳定性能以及电化学性能。

Applicant:
Yang Chang-en (杨昌恩)
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Inventor:
杨昌恩

15 50 CN 108039511 A
15-05-2018
EPO Reference
Titles:
Polar Gel Electrolyte and Its Application in Solid State Lithium Sulfur Battery
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种极性凝胶电解质及其在固态锂硫电池中的应用

Abstracts:

The present invention relates to a polar gel electrolyte and its use in solid lithium sulfur batteries. It includes a polymer matrix and a liquid electrolyte formed in the polymer matrix. The polymer matrix contains at least two rings The organic compound of the oxo group and the second organic compound containing at least two amino groups are polymerized to form a molar ratio of the epoxy group to the amino group of 1:0.5-2. The polymer matrix can not only effectively limit the flow of the liquid electrolyte, reduce the risk of electrolyte leakage, but also can have a strong interaction with the polysulfide generated during the cycling of lithium-sulfur batteries, very good The polysulfide is limited to the sulfur electrode, so that the lithium sulfur battery performance is significantly improved.
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本发明涉及种极性凝胶电解质及其在固态锂硫电池中的应用,它包括聚合物基体以及形成在所述聚合物基体内的液态电解液,所述聚合物基体为含有至少两个环氧基的第有机物和含有至少两个氨基的第二有机物进行聚合反应生成,所述环氧基和所述氨基的摩尔比为1:0.5‑2。该聚合物基体不仅可以有效限制住液态电解液的流动,减小了电解液漏液的危险性,而且还可以和锂硫电池循环过程中产生的多硫化物产生很强的相互作用,很好地将多硫化物限制在了硫电极中,使得锂硫电池性能得到明显改善。

Applicant:
Suzhou University (苏州大学)
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Inventors:
晏成林
周金秋
钱涛

16 42 KR 20180052208 A
18-05-2018
EPO Reference
Titles:
Brominated polyphenylenesulfide based by polyphenylenesulfide method for producing the same brominated and sulfonated polyphenylenesulfide and manufacturing method using the same
폴리페닐렌설파이드 기반 브롬화 폴리페닐렌설파이드, 그 제조방법, 이를 이용한 브롬화 및 슬폰화 폴리페닐렌설파이드 및 그 제조방법

Abstracts:

Applicant:
UNIV NAT CHONNAM IND FOUND [KR] (전남대학교산학협력단)

Inventors:
JUNG HO YOUNG [KR] (정호영)
SHIN DONG SEOK [KR] (신동석)
NOH HYEON JUN [KR] (노현준)
KANG KYUNG SEOK [KR] (강경석)
SON WON KEUN [KR] (손원근)
CHOI JIN HYEOK [KR] (최진혁)

17 40 WO 2018038201 A1
01-03-2018
EPO Reference
Titles:
SOLID ELECTROLYTIC CAPACITOR ELEMENT, SOLID ELECTROLYTIC CAPACITOR, METHOD FOR PRODUCING SOLID ELECTROLYTIC CAPACITOR ELEMENT, AND METHOD FOR PRODUCING SOLID ELECTROLYTIC CAPACITOR
固体電解コンデンサ素子、固体電解コンデンサ、固体電解コンデンサ素子の製造方法、及び、固体電解コンデンサの製造方法

Abstracts:

Applicant:
MURATA MANUFACTURING CO [JP] (株式会社村田製作所)

Inventors:
HOUCHIN YOSHINOBU [JP] (宝珍 善伸)
YOSHINO JUNICHI [JP] (吉野 淳一)

18 39 US 2018159171 A1
07-06-2018
EPO Reference
Title:
LITHIUM-ION MIXED CONDUCTOR MEMBRANE IMPROVES THE PERFORMANCE OF LITHIUM-SULFUR BATTERY AND OTHER ENERGY STORAGE DEVICES

Abstract:

A lithium ion mixed conduction membrane includes an optional polymeric binder and a partially lithiated ion conductive material having lithium ion conductivity and electrical conductivity dispersed within the polymeric binder that is capable of improving the performance and cycle life of lithium-sulfur rechargeable batteries and other batteries exhibiting the polysulfide shuttle. One or more lithium ion conduction membranes are placed between the positive and negative electrodes, or adjacent to the negative electrode of a battery and in particular, of a lithium sulfur battery.

Applicant:
UNIV SOUTHERN CALIFORNIA [US]

Inventors:
NARAYAN SRI R [US]
MOY DEREK [US]

Other family members:
EP 3311441 A1, Pub. Date: 2018-04-25, EPO Reference
CN 107864687 A, Pub. Date: 2018-03-30, EPO Reference
WO 2016205802 A1, Pub. Date: 2016-12-22, EPO Reference
CA 2988991 A1, Pub. Date: 2016-12-22, EPO Reference

19 31 CN 107964106 A
27-04-2018
EPO Reference
Titles:
Method for preparing conductive polymer hydrogel and its application in super capacitor
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种导电聚合物水凝胶的制备方法及其在超级电容器中的应用

Abstracts:

Applicant:
Central South University (中南大学)
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Inventors:
郑俊
张翼
刘静静

20 29 FR 3024145 B1
16-03-2018
EPO Reference
Title:
NOUVEAUX POLYMERES CONTENANT DES SELS DE LITHIUM OU DE SODIUM DE SULFONAMIDES, LEURS PROCEDES DE PREPARATION ET LEURS UTILISATIONS COMME ELECTROLYTES POUR BATTERIES

Applicants:
CDP INNOVATION [FR]
CENTRE NATIONALE DE LA RECHERCHE SCIENT [FR]
AIX MARSEILLE UNIV [FR]

Inventors:
DESMURS JEAN-ROGER [FR]
CLINET ELISABET DUNACH [FR]
KNAUTH PHILIPPE [FR]
MORIZUR VINCENT [FR]
OLIVERO SANDRA [FR]

Other family members:
JP 2017524063 A, Pub. Date: 2017-08-24, EPO Reference
CN 107004455 A, Pub. Date: 2017-08-01, EPO Reference
US 2017170516 A1, Pub. Date: 2017-06-15, EPO Reference
EP 3172259 A1, Pub. Date: 2017-05-31, EPO Reference
KR 20170048354 A, Pub. Date: 2017-05-08, EPO Reference
FR 3024145 A1, Pub. Date: 2016-01-29, EPO Reference
WO 2016012669 A1, Pub. Date: 2016-01-28, EPO Reference

21 28 EP 3340350 A1
27-06-2018
EPO Reference
Titles:
POLYPHENYLSULFONE-BASED PROTON CONDUCTING POLYMER ELECTROLYTE, PROTON CONDUCTING SOLID POLYMER ELECTROLYTE MEMBRANE, ELECTRODE CATALYST LAYER FOR SOLID POLYMER FUEL CELLS, METHOD FOR PRODUCING ELECTRODE CATALYST LAYER FOR SOLID POLYMER FUEL CELLS, AND FUEL CELL
AUF POLYPHENYLSULFON BASIERENDER PROTONENLEITENDER POLYMERELEKTROLYT, PROTONENLEITENDE FESTPOLYMERELEKTROLYTMEMBRAN, ELEKTRODENKATALYSATORSCHICHT FÜR FESTPOLYMERBRENNSTOFFZELLEN, VERFAHREN ZUR HERSTELLUNG EINER ELEKTRODENKATALYSATORSCHICHT FÜR FESTPOLYMERBRENNSTOFFZELLEN UND BRENNSTOFFZELLE

Abstract:

Applicant:
NAT INSTITUTE FOR MATERIALS SCIENCE [JP]

Inventors:
KIM JEDEOK [JP]
ZHANG YAOJIAN [JP]

Other family members:
WO 2017029967 A1, Pub. Date: 2017-02-23, EPO Reference

22 27 JP 2018065980 A
26-04-2018
EPO Reference
Titles:
Sulfur-containing polymer
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含硫黄ポリマー

Abstracts:

Applicant:
Yamaguchi University (国立大学法人山口大学)
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Inventors:
板岡 加成恵
山吹 一大
堤 宏守
長田 浩平

23 27 CN 107887573 A
06-04-2018
EPO Reference
Titles:
Positive active material with topological structure and application thereof
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具有拓扑结构的正极活性物质及其应用

Abstracts:

Applicant:
Chinese Academy of Science (中国科学院大学)
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Inventors:
张辽云
刘旭
王蔼廉
许浩
王师
陈杰

24 24 CN 107863509 A
30-03-2018
EPO Reference
Titles:
Method for preparing polymer-coated sulfur-carbon composite anode material
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种聚合物包覆硫碳复合正极材料的制备方法

Abstracts:

Applicant:
Hefei Guoxuan Hi-Tech Power Energy Co., Ltd. (合肥国轩高科动力能源有限公司)
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Inventors:
张成龙
朱丽丽

25 24 EP 3340341 A1
27-06-2018
EPO Reference
Titles:
BINDER COMPOSITION FOR NONAQUEOUS SECONDARY BATTERIES, COMPOSITION FOR NONAQUEOUS SECONDARY BATTERY FUNCTIONAL LAYERS, FUNCTIONAL LAYER FOR NONAQUEOUS SECONDARY BATTERIES, AND NONAQUEOUS SECONDARY BATTERY
BINDEMITTELZUSAMMENSETZUNG FÜR WASSERFREIE SEKUNDÄRBATTERIEN, ZUSAMMENSETZUNG FÜR FUNKTIONSSCHICHTEN EINER WASSERFREIEN SEKUNDÄRBATTERIE, FUNKTIONSSCHICHT FÜR WASSERFREIE SEKUNDÄRBATTERIEN UND WASSERFREIE SEKUNDÄRBATTERIE

Abstract:

Applicant:
ZEON CORP [JP]

Inventors:
OHKUBO YUUKI [JP]
TAKAMATSU HIROMI [JP]
TOYODA YUJIRO [JP]

Other family members:
JP WO2017029813 A1, Pub. Date: 2018-06-07, EPO Reference
KR 20180044892 A, Pub. Date: 2018-05-03, EPO Reference
CN 107925037 A, Pub. Date: 2018-04-17, EPO Reference
WO 2017029813 A1, Pub. Date: 2017-02-23, EPO Reference

26 23 JP 2018085290 A
31-05-2018
EPO Reference
Titles:
Sulfur-based active material, electrode and method for producing lithium ion secondary battery
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硫黄系活物質、電極およびリチウムイオン二次電池の製造方法

Abstracts:

Applicants:
Sumitomo Rubber Industries, Ltd. (住友ゴム工業株式会社)
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National Institute of Advanced Industrial Science and Technology (AIST) (国立研究開発法人産業技術総合研究所)
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Inventors:
久保 達也
山下 直人
柳田 昌宏

27 23 KR 101841692 B1
23-03-2018
EPO Reference
Titles:
Semi-fluorinated Polyether sulfone block copolymers and Anion Exchange Polymer Electrolyte Membrane using the same
반플루오르화된 폴리에테르설폰 블록공중합체 및 이를 이용한 음이온 교환 고분자 전해질막

Abstracts:

Applicant:
DONG EUI UNIV INDUSTRY ACADEMIC COOPERATION FOUNDATION [KR] (동의대학교 산학협력단)

Inventors:
KIM NO WON [KR] (김노원)
JUNG BO RAM [KR] (정보람)
PAIK HYUN JONG [KR] (백현종)
ARUNA KUMAR MOHANTY [IN] (아루나 쿠마르 모하티)
SUBRAMANI DEVARAJU [IN] (수브라마니 데바라주)

28 22 US 2018068801 A1
08-03-2018
EPO Reference
Title:
ELECTROLYTIC CAPACITOR AND CONDUCTIVE POLYMER DISPERSION

Abstract:

Applicant:
PANASONIC IP MAN CO LTD [JP]

Inventors:
UKA YOUICHIROU [JP]
MIYAHARA KATSUYA [JP]
KOJIMA HIROSHI [JP]

Other family members:
JP WO2016194277 A1, Pub. Date: 2018-04-12, EPO Reference
CN 107615424 A, Pub. Date: 2018-01-19, EPO Reference
WO 2016194277 A1, Pub. Date: 2016-12-08, EPO Reference

29 22 CN 108110343 A
01-06-2018
EPO Reference
Titles:
Environmental protection lead-acid battery repair liquid and preparation process thereof
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种环保的铅酸蓄电池修复液及其制备工艺

Abstracts:

Applicant:
Tianjin Huaqing Baisheng Energy Co., Ltd. (天津华庆百胜能源有限公司)
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Inventors:
吴昱铮
吴进波
吴秀侠

30 21 EP 3322018 A1
16-05-2018
EPO Reference
Titles:
POLYMER ELECTROLYTE MEMBRANE PRODUCTION METHOD, POLYMER ELECTROLYTE MEMBRANE PRODUCED USING SAME, MEMBRANE ELECTRODE ASSEMBLY COMPRISING SAID POLYMER ELECTROLYTE MEMBRANE, AND FUEL CELL COMPRISING SAID MEMBRANE ELECTRODE ASSEMBLY
VERFAHREN ZUR HERSTELLUNG EINER POLYMERELEKTROLYTMEMBRAN, DAMIT HERGESTELLTE POLYMERELEKTROLYTMEMBRAN, MEMBRANELEKTRODENANORDNUNG MIT DER POLYMERELEKTROLYTMEMBRAN UND BRENNSTOFFZELLE MIT DER MEMBRANELEKTRODENANORDNUNG

Abstract:

Applicant:
LG CHEMICAL LTD [KR]

Inventors:
BAE INSUNG [KR]
OH KEUNHWAN [KR]
KIM SUNHWA [KR]
KIM HYUK [KR]

Other family members:
CN 107925109 A, Pub. Date: 2018-04-17, EPO Reference
KR 20170125721 A, Pub. Date: 2017-11-15, EPO Reference

31 20 US 2018102562 A1
12-04-2018
EPO Reference
Title:
COMPOSITE POLYMER ELECTROLYTE MEMBRANE FOR FUEL CELL, AND METHOD OF MANUFACTURING THE SAME

Abstract:

Applicant:
KOREA INST SCI & TECH [KR]

Inventors:
KIM JIN YOUNG [KR]
JO SUNHEE [KR]
LEE SO YOUNG [KR]
YOO SUNG JONG [KR]
JANG JONG HYUN [KR]
KIM HYOUNG-JUHN [KR]
HAN JONGHEE [KR]
NAM SUK WOO [KR]
LIM TAE HOON [KR]

Other family members:
CN 107946622 A, Pub. Date: 2018-04-20, EPO Reference
KR 20180040394 A, Pub. Date: 2018-04-20, EPO Reference

32 20 CN 108134033 A
08-06-2018
EPO Reference
Titles:
Porous Separator Used in Lithium-Sulfur Battery
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种多孔隔膜在锂硫电池中的应用

Abstracts:

Applicant:
Dalian Institute of Chemical Physics, Chinese Academy of Sciences (中国科学院大连化学物理研究所)
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Inventors:
李先锋
张华民
李丹
史丁秦

33 19 JP 2018073810 A
10-05-2018
EPO Reference
Titles:
Polymer electrolyte membrane, manufacturing method thereof, membrane / electrode assembly including the same, and fuel cell
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高分子電解質膜、その製造方法、およびそれを含む膜/電極接合体と燃料電池

Abstracts:

Applicants:
Yamanashi University (国立大学法人山梨大学)
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Kaneka Corporation (株式会社カネカ)
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Inventors:
宮武 健治
内田 誠
日下部 正人

34 18 CN 107768656 A
06-03-2018
EPO Reference
Titles:
Method for preparing lithium/sulfur battery sulfur/carbon anode composite material
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种锂硫电池硫/碳正极复合材料的制备方法

Abstracts:

Applicant:
Zhengzhou BAK Battery Co., Ltd. (郑州比克电池有限公司)
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Inventors:
孙志国
贾秋荣

35 18 US 2018138510 A1
17-05-2018
EPO Reference
Title:
CATHODE ELECTRODE MATERIAL AND LITHIUM SULFUR BATTERY USING THE SAME

Abstract:

Applicant:
UNIV TSINGHUA [CN]

Inventors:
HE XIANG-MING [CN]
QIAN GUAN-NAN [CN]
WANG LI [CN]

Other family members:
CN 106374108 A, Pub. Date: 2017-02-01, EPO Reference
WO 2017012522 A1, Pub. Date: 2017-01-26, EPO Reference

36 17 CN 107871621 A
03-04-2018
EPO Reference
Titles:
Polyarylene ether ionic liquid composite film for super capacitor and preparation method thereof
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种用于超级电容器的聚芳醚离子液体复合膜及其制备方法

Abstracts:

Applicant:
Qingdao Donghao Software Technology Co., Ltd. (青岛东浩软件科技有限公司)
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Inventor:
盖浩然

37 16 EP 3322008 A1
16-05-2018
EPO Reference
Titles:
ELECTRODE FOR LITHIUM SULPHUR CELL
ELEKTRODE FÜR LITHIUM-SCHWEFEL-ZELLE

Abstract:

Applicant:
OXIS ENERGY LTD [GB]

Inventors:
ASHLEY COOKE [GB]
LISSET URRUTIA [GB]
STEPHEN ROWLANDS [GB]
PHILIP J TOY [GB]

Other family members:
WO 2018087543 A1, Pub. Date: 2018-05-17, EPO Reference

38 16 CN 107863534 A
30-03-2018
EPO Reference
Titles:
Polar adhesive for lithium-sulfur battery and preparation method thereof
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种应用于锂硫电池的极性粘接剂及其制备方法

Abstracts:

Applicant:
University of Electronic Science and Technology of China (电子科技大学)
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Inventors:
熊杰
陈伟
雷天宇
邬春阳
戴丽萍

39 15 WO 2018048081 A1
15-03-2018
EPO Reference
Titles:
LITHIUM-SULFUR BATTERY
리튬-황 전지

Abstracts:

Applicant:
LG CHEMICAL LTD [KR] (주식회사 엘지화학)

Inventors:
KIM TAEK GYOUNG [KR] (김택경)
YANG DOO KYUNG [KR] (양두경)
PARK INTAE [KR] (박인태)

Other family members:
KR 20180028622 A, Pub. Date: 2018-03-19, EPO Reference

40 15 EP 3327830 A1
30-05-2018
EPO Reference
Titles:
METAL-ION SECONDARY BATTERY
METALL-IONEN-SEKUNDÄRBATTERIE

Abstract:

Applicant:
SUMITOMO RUBBER IND [JP]

Inventors:
KUBO TATSUYA [JP]
YAMANO AKIHIRO [JP]
MORISHITA MASANORI [JP]
SAKAI TETSUO [JP]
YOSHITAKE HIDEYA [JP]

Other family members:
JP 2018092913 A, Pub. Date: 2018-06-14, EPO Reference
CN 108110312 A, Pub. Date: 2018-06-01, EPO Reference
US 2018151879 A1, Pub. Date: 2018-05-31, EPO Reference

41 15 US 2018114643 A1
26-04-2018
EPO Reference
Title:
DIELECTRIC FILM, FILM CAPACITOR AND COMBINATION TYPE CAPACITOR EMPLOYING THE DIELECTRIC FILM, AND INVERTER AND ELECTRIC VEHICLE

Abstract:

Applicant:
KYOCERA CORP [JP]

Inventors:
OKOUCHI AKIRA [JP]
IMAGAWA KAZUKI [JP]

Other family members:
EP 3276632 A1, Pub. Date: 2018-01-31, EPO Reference
CN 107430900 A, Pub. Date: 2017-12-01, EPO Reference
JP WO2016152362 A1, Pub. Date: 2017-11-09, EPO Reference
WO 2016152362 A1, Pub. Date: 2016-09-29, EPO Reference

42 14 JP 2018059103 A
12-04-2018
EPO Reference
Titles:
Ion exchange membrane
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イオン交換膜

Abstracts:

Applicant:
Asahi Kasei Corporation (旭化成株式会社)
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Inventors:
鰺坂 康生
角 佳典
関口 雄司

43 14 US 2018138509 A1
17-05-2018
EPO Reference
Title:
CATHODE ELECTRODE MATERIAL AND LITHIUM SULFUR BATTERY USING THE SAME

Abstract:

Applicant:
UNIV TSINGHUA [CN]

Inventors:
HE XIANG-MING [CN]
QIAN GUAN-NAN [CN]
WANG LI [CN]

Other family members:
WO 2017012500 A1, Pub. Date: 2017-01-26, EPO Reference
CN 106340652 A, Pub. Date: 2017-01-18, EPO Reference

44 14 CN 107768579 A
06-03-2018
EPO Reference
Titles:
Lead battery separator, preparation method and lead battery
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种铅蓄电池隔板、制备方法及铅蓄电池

Abstracts:

Applicant:
Tianneng Battery Group Co., Ltd. (天能电池集团有限公司)
translated by b-science.net

Inventors:
张峰博
陈飞
孔春凤
郭志刚
陈连强

45 13 CN 108134136 A
08-06-2018
EPO Reference
Titles:
Kind of electrolyte and kind of secondary battery
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种电解液和种二次电池

Abstracts:

Applicant:
Highpower Technology Huizhou Co., Ltd. (惠州市豪鹏科技有限公司)
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Inventors:
黄刚
李枫
杜冬冬
于立娟
廖兴群

46 13 WO 2018102667 A1
07-06-2018
EPO Reference
Titles:
BATTERY BASED ON ORGANOSULFUR SPECIES
BATTERIE BASÉE SUR DES ESPÈCES ORGANOSULFURÉES

Abstracts:

Applicant:
ARKEMA INC [US]

Inventors:
SMITH GARY S [US]
WANG LIJUAN [US]
FORTMAN GEORGE C [US]

47 12 US 2018151871 A1
31-05-2018
EPO Reference
Title:
FABRICATION METHOD FOR A POROUS POSITIVE ELECTRODE FOR A LITHIUM-SULPHUR ELECTROCHEMICAL BATTERY

Abstract:

Applicant:
COMMISSARIAT A LENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES [FR]

Inventors:
BARCHASZ CÉLINE [FR]
BOLLOLI MARCO [FR]
CLAUDEL FABIEN [FR]
VINCENT RÉMI [FR]

Other family members:
FR 3059470 A1, Pub. Date: 2018-06-01, EPO Reference
EP 3327831 A1, Pub. Date: 2018-05-30, EPO Reference

48 12 JP 2018085291 A
31-05-2018
EPO Reference
Titles:
Sulfur-based active material, electrode and method for producing lithium ion secondary battery
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硫黄系活物質、電極およびリチウムイオン二次電池の製造方法

Abstracts:

Applicants:
Sumitomo Rubber Industries, Ltd. (住友ゴム工業株式会社)
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National Institute of Advanced Industrial Science and Technology (AIST) (国立研究開発法人産業技術総合研究所)
translated by b-science.net

Inventors:
久保 達也
山下 直人
柳田 昌宏

49 11 WO 2018093032 A1
24-05-2018
EPO Reference
Titles:
LITHIUM-SULFUR BATTERY
리튬-황 전지

Abstracts:

Applicant:
LG CHEMICAL LTD [KR] (주식회사 엘지화학)

Inventors:
KOH DONGWOOK [KR] (고동욱)
YANG DOO KYUNG [KR] (양두경)
PARK INTAE [KR] (박인태)

Other family members:
KR 20180056916 A, Pub. Date: 2018-05-30, EPO Reference

50 11 US 2018151870 A1
31-05-2018
EPO Reference
Title:
PREPARATION METHOD FOR A POSITIVE ELECTRODE FOR LITHIUM-SULPHUR ELECTROCHEMICAL BATTERY

Abstract:

Applicant:
COMMISSARIAT A LENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES [FR]

Inventors:
BOLLOLI MARCO [FR]
BARCHASZ CÉLINE [FR]
CLAUDEL FABIEN [FR]

Other family members:
FR 3059471 A1, Pub. Date: 2018-06-01, EPO Reference
EP 3327832 A1, Pub. Date: 2018-05-30, EPO Reference

51 10 CN 107845774 A
27-03-2018
EPO Reference
Titles:
Self-supporting porous electrode preparation method, electrode and application thereof
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自支撑多孔电极制备方法及其电极和应用

Abstracts:

Applicant:
Dalian Institute of Chemical Physics, Chinese Academy of Sciences (中国科学院大连化学物理研究所)
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Inventors:
张洪章
张华民
李先锋
杨晓飞

52 10 WO 2018075329 A1
26-04-2018
EPO Reference
Titles:
SOLID ELECTROLYTIC CAPACITOR WITH IMPROVED PERFORMANCE AT HIGH TEMPERATURES AND VOLTAGES
CONDENSATEUR ÉLECTROLYTIQUE SOLIDE À PERFORMANCES AMÉLIORÉES À HAUTES TEMPÉRATURES ET TENSIONS

Abstracts:

Applicant:
AVX CORP [US]

Inventors:
PETRZILEK JAN [US]
UHER MILOSLAV [US]
HOFIREK TOMAS [US]

Other family members:
US 2018108487 A1, Pub. Date: 2018-04-19, EPO Reference

53 10 US 2018119306 A1
03-05-2018
EPO Reference
Title:
ELECTROLYTIC CAPACITOR

Abstract:

Applicant:
PANASONIC IP MAN CO LTD [JP]

Inventors:
TSUBAKI YUICHIRO [JP]
AOYAMA TATSUJI [JP]
SAITO KAZUYO [JP]

Other family members:
CN 108022756 A, Pub. Date: 2018-05-11, EPO Reference
JP 2018074046 A, Pub. Date: 2018-05-10, EPO Reference
DE 102017218950 A1, Pub. Date: 2018-05-03, EPO Reference

54 10 KR 20180048309 A
10-05-2018
EPO Reference
Titles:
SULFUR-CARBON COMPOSITE AND LITHIUM-SULFUR BATTERY INCLUDING THE SAME
황-탄소 복합체 및 이를 포함하는 리튬-황 전지

Abstracts:

Applicant:
LG CHEMICAL LTD [KR] (주식회사 엘지화학)

Inventors:
CHO EUN KYUNG (조은경)
YANG DOO KYUNG (양두경)
KOH DONG WOOK (고동욱)

55 10 CN 108039462 A
15-05-2018
EPO Reference
Titles:
Method for manufacturing intermediate layer of conductive polymer composite of lithium-sulphur battery
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种锂-硫电池的导电高聚物复合物的中间层的制造方法

Abstracts:

Applicant:
Xi'an Jiaotong-Liverpool University (西交利物浦大学)
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Inventors:
易若玮
杨莉
赵策州
刘晨光
赵胤超
耿显葳

56 10 US 2018163040 A1
14-06-2018
EPO Reference
Title:
POLYMER COMPOSITE MATERIAL, METHOD FOR MANUFACTURING THE POLYMER COMPOSITE MATERIAL, CAPACITOR PACKAGE STRUCTURE USING THE POLYMER COMPOSITE MATERIAL AND METHOD FOR MANUFACTURING THE CAPACITOR PACKAGE STRUCTURE

Abstract:

Applicant:
APAQ TECH CO LTD [TW]

Inventors:
LIN CHIEH [TW]
LIN CHING-FENG [TW]
CHEN MING-TSUNG [TW]

57 10 WO 2018082181 A1
11-05-2018
EPO Reference
Titles:
STRONG POLAR POLYMER ADHESIVE, SYNTHETIC METHOD, AND APPLICATION THEREOF IN LITHIUM BATTERY
一种强极性聚合物粘结剂、合成方法及其在锂电池中的应用

Abstracts:

Applicant:
UNIV SOOCHOW [CN] (苏州大学)

Inventors:
YAN CHENGLIN [CN] (宴成林)
LIU JIE [CN] (刘杰)
QIAN TAO [CN] (钱涛)

Other family members:
CN 106700013 A, Pub. Date: 2017-05-24, EPO Reference

58 10 WO 2018084449 A2
11-05-2018
EPO Reference
Titles:
SULFUR-CARBON COMPOSITE AND LITHIUM-SULFUR BATTERY COMPRISING SAME
황-탄소 복합체 및 이를 포함하는 리튬-황 전지

Abstracts:

Applicant:
LG CHEMICAL LTD [KR] (주식회사 엘지화학)

Inventors:
CHO EUNKYUNG [KR] (조은경)
YANG DOO KYUNG [KR] (양두경)
KOH DONGWOOK [KR] (고동욱)

59 10 CN 108017784 A
11-05-2018
EPO Reference
Titles:
Hybrid conductive hydrogel and preparation method and application thereof
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杂化导电水凝胶其制备方法和应用

Abstracts:

Applicant:
Shenzhen Water New Material Co., Ltd. (深圳市沃特新材料股份有限公司)
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Inventors:
施永
何征
吴宪
张亮

60 9 KR 20180026354 A
12-03-2018
EPO Reference
Titles:
MANUFACTURING METHOD OF POSITIVE ELECTRODE ACTIVE MATERIAL FOR RECHARGEABLE BATTERY
이차 전지용 양극 활물질의 제조 방법

Abstracts:

Applicant:
SOONCHUNHYANG UNIV INDUSTRY ACADEMY COOPERATION FOUNDATION [KR] (순천향대학교 산학협력단)

Inventors:
JEONG SOON KI [KR] (정순기)
KIM CHANG SU [KR] (김창수)

61 9 JP 2018037278 A
08-03-2018
EPO Reference
Titles:
Electrode and secondary battery
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電極及び二次電池

Abstracts:

Applicant:
Toyota Industries Corporation (株式会社豊田自動織機)
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Inventors:
阿部 友邦
杉山 佑介
合田 信弘

62 8 US 2018166681 A1
14-06-2018
EPO Reference
Title:
SULFUR CONTAINING NANOPOROUS MATERIALS, NANOPARTICLES, METHODS AND APPLICATIONS

Abstract:

Applicant:
UNIV CORNELL [US]

Inventors:
ARCHER LYNDEN A [US]
NAVANEEDHAKRISHNAN JAYAPRAKASH [US]

Other family members:
EP 2638584 B1, Pub. Date: 2017-05-03, EPO Reference
EP 2638584 A4, Pub. Date: 2014-07-23, EPO Reference
JP 2014502405 A, Pub. Date: 2014-01-30, EPO Reference
KR 20140001935 A, Pub. Date: 2014-01-07, EPO Reference
US 2013330619 A1, Pub. Date: 2013-12-12, EPO Reference
CN 103339770 A, Pub. Date: 2013-10-02, EPO Reference
EP 2638584 A2, Pub. Date: 2013-09-18, EPO Reference
WO 2012064702 A3, Pub. Date: 2012-07-12, EPO Reference
WO 2012064702 A2, Pub. Date: 2012-05-18, EPO Reference

63 8 CN 107768617 A
06-03-2018
EPO Reference
Titles:
Lithium-sulfur battery composite cathode material and preparation method thereof
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锂硫电池复合正极材料及其制备方法

Abstracts:

Applicant:
Shenzhen Qichen New Energy Technology Co., Ltd. (深圳启辰新能源科技有限公司)
translated by b-science.net

Inventors:
徐辉
陈国华
覃旭松

64 7 CN 108010735 A
08-05-2018
EPO Reference
Titles:
Preparation of Polyaniline/Graphene Oxide and Its Application in Supercapacitor Electrodes
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聚苯胺/氧化石墨烯的制备及在超级电容器电极的应用

Abstracts:

Applicant:
Hefei Teachers College (合肥师范学院)
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Inventor:
刘健

65 7 US 2018105649 A1
19-04-2018
EPO Reference
Title:
3D-PRINTING OF ULTRA-HIGH REFRACTIVE INDEX POLYMERS

Abstract:

Applicant:
UNIV ARIZONA [US]

Inventors:
PYUN DONG-CHUL [US]
LIANG RONGGUANG [US]

66 7 CN 108172734 A
15-06-2018
EPO Reference
Titles:
Method for preparing a novel lithium-sulfur battery three-layer composite diaphragm
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种新型锂硫电池三层复合隔膜的制备方法

Abstracts:

Applicant:
Central South University (中南大学)
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Inventors:
刘久清
崔金强
李劼
赖延清

67 7 WO 2018070448 A1
19-04-2018
EPO Reference
Titles:
ADHESIVE COMPOSITION FOR ELECTROCHEMICAL ELEMENTS, ELECTROCHEMICAL ELEMENT AND METHOD FOR PRODUCING ELECTROCHEMICAL ELEMENT
電気化学素子用接着剤組成物、電気化学素子、及び電気化学素子製造方法

Abstracts:

Applicant:
ZEON CORP [JP] (日本ゼオン株式会社)

Inventors:
SONOBE KENYA [JP] (園部 健矢)
TANAKA KEIICHIRO [JP] (田中 慶一朗)
OGURO HIROKI [JP] (小黒 寛樹)

68 6 CN 108054360 A
18-05-2018
EPO Reference
Titles:
Lithium iron sulfate cathode material for low-temperature lithium battery and preparation method thereof
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种低温锂电池用氟化硫酸铁锂正极材料及其制备方法

Abstracts:

Applicant:
Anhui Days New Energy Technology Co., Ltd. (安徽天时新能源科技有限公司)
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Inventors:
杜金富
罗鹏博
王兴
赵俊伟

69 6 WO 2018044431 A1
08-03-2018
EPO Reference
Titles:
ATTACHMENT OF GRAPHENE AND METAL TO ORGANIC POLYMERS
FIXATION DE GRAPHÈNE ET DE MÉTAL À DES POLYMÈRES ORGANIQUES

Abstracts:

Applicant:
UNIV NEW YORK STATE RES FOUND [US]

Inventors:
RAFAILOVICH MIRIAM [US]
ISSEROFF REBECCA [US]
LI HONGFEI [US]
BLACKBURN LEE [US]
CHEN ARTHUR [US]
CHEN ANDREW [US]
CHITTABATHINI SNEHA [US]
TSE ALEXANDRA [US]
CHENG PEN [US]

70 6 CN 107863523 A
30-03-2018
EPO Reference
Titles:
Sulfur-conductive high-polymer lithium-sulfur battery cathode material and preparation method thereof
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维硫‑导电高聚物锂硫电池正极材料及其制备方法

Abstracts:

Applicant:
Xi'an Jiaotong-Liverpool University (西交利物浦大学)
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Inventors:
杨莉
赵策洲
易若玮
刘晨光
赵胤超
耿显葳

71 5 CN 108075121 A
25-05-2018
EPO Reference
Titles:
Sulfur/nitrogen-doped porous carbon nano-composite fiber and preparation and application thereof
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硫/氮掺杂多孔碳纳米复合纤维及其制备与应用

Abstracts:

Applicant:
Donghua University (东华大学)
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Inventors:
刘天西
欧阳玥
缪月娥
朱晓波
王婧

72 4 CN 107946580 A
20-04-2018
EPO Reference
Titles:
A positive electrode material that can increase the lithium battery capacity
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种能够提高锂电池电容量的正极材料

Abstracts:

Applicant:
Anhui Lin-Tech Power Co., Ltd. (安徽零度新能源科技有限公司)
translated by b-science.net

Inventor:
赵小亮

73 4 CN 108134032 A
08-06-2018
EPO Reference
Titles:
Polyetheretherketone porous membrane for lithium ion battery and preparation and application thereof
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种锂离子电池用聚醚醚酮多孔隔膜及其制备和应用

Abstracts:

Applicant:
Dalian Institute of Chemical Physics, Chinese Academy of Sciences (中国科学院大连化学物理研究所)
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Inventors:
李先锋
张华民
李丹
史丁秦

74 3 DE 102017127041 A1
24-05-2018
EPO Reference
Title:
MINDERUNGSSTRATEGIEN FÜR EINE BESSERE HALTBARKEIT VON PLATTENFÖRMIGEN WASSERDAMPFTRANSFERVORRICHTUNGEN AUF PFSA-BASIS

Abstract:

Applicant:
GM GLOBAL TECH OPERATIONS LLC [US]

Inventors:
COMS FRANK D [US]
FULLER TIMOTHY J [US]

Other family members:
CN 108075153 A, Pub. Date: 2018-05-25, EPO Reference
US 2018145357 A1, Pub. Date: 2018-05-24, EPO Reference

75 3 CN 107887575 A
06-04-2018
EPO Reference
Titles:
Method for preparing and modifying lead battery negative plate by using polyaniline
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种聚苯胺制备和修饰铅蓄电池负极板的方法

Abstracts:

Applicants:
Jiangsu Huafu Storage New Technology Development Co., Ltd. (江苏华富储能新技术股份有限公司)
translated by b-science.net
Yangzhou University (扬州大学)
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Inventors:
王雅琼
许文林
汪的华
程世骑
赵宣
周寿斌
彭创
魏迪
毛旭辉
肖巍

76 2 CN 108122690 A
05-06-2018
EPO Reference
Titles:
Preparation method of sulfur-nitrogen co-doped carbon nanosphere electrode material
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种硫氮共掺碳纳米球电极材料的制备方法

Abstracts:

Applicant:
Inner Mongolia University of Science and Technology (内蒙古科技大学)
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Inventors:
辛国祥
赵鑫
胡锋
宋金玲
刘庆林
李大路
程欢

77 2 CN 108155383 A
12-06-2018
EPO Reference
Titles:
Lithium-sulfur battery binder and preparation method thereof and lithium-sulfur battery cathode
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种锂硫电池用粘结剂及其制备方法和锂硫电池正极

Abstracts:

Applicant:
Nakayama University (中山大学)
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Inventors:
张宏
余丁山
胡轩赫
李靖

78 1 DE 10295737 B4
09-05-2018
EPO Reference
Title:
Kovalent vernetzter Komposit, kovalente vernetzte Kompositmembran, Verfahren zu deren Herstellung und Verwendung der Membranen

Abstract:

Applicant:
HAERING THOMAS [DE]

Inventor:
HÄRING THOMAS [DE]

Other family members:
WO 03050169 A3, Pub. Date: 2003-08-21, EPO Reference
AU 2002364268 A1, Pub. Date: 2003-06-23, EPO Reference
AU 2002364268 A8, Pub. Date: 2003-06-23, EPO Reference
WO 03050169 A2, Pub. Date: 2003-06-19, EPO Reference

79 0 CN 107994284 A
04-05-2018
EPO Reference
Titles:
Waste sulfonated membrane treatment method
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废旧磺化隔膜的处理方法

Abstracts:

Applicant:
Zibo Guoli New Power Technology Co., Ltd. (淄博国利新电源科技有限公司)
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Inventors:
张亚莉
楚玮

80 0 CN 107946619 A
20-04-2018
EPO Reference
Titles:
Highly sulfonated poly (ether ether ketone) and graphene oxide copolymer material and its proton exchange membrane preparation method
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高磺化聚醚醚酮与氧化石墨烯的共聚物材料及其质子交换膜制备方法

Abstracts:

Applicant:
Beijing Qin Tian Science & Technology Group Co., Ltd. (北京秦天科技集团有限公司)
translated by b-science.net

Inventors:
徐虎林
朱长进

81 0 CN 107978717 A
01-05-2018
EPO Reference
Titles:
Composite lithium-sulfur battery separator, preparation method and application thereof
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种复合型锂硫电池隔膜及其制备方法和应用

Abstracts:

Applicant:
Nakayama University (中山大学)
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Inventors:
张宏
余丁山
李靖
胡轩赫

82 -2 CN 108117640 A
05-06-2018
EPO Reference
Titles:
Method for preparing chlorosulfonated polyether ether ketone composite film
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种氯磺化聚醚醚酮复合材料薄膜的制备方法

Abstracts:

Applicant:
Yibin Tianyuan Group Co., Ltd. (宜宾天原集团股份有限公司)
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Inventors:
侯天武
颜华
佘国华

83 -3 CN 107919491 A
17-04-2018
EPO Reference
Titles:
Lithium metal anode surface graphene-based protective layer and corresponding lithium-sulfur battery
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种锂金属阳极表面石墨烯基保护层及相应锂硫电池

Abstracts:

Applicants:
Chengdu Organic Chemicals Co., Ltd. Chinese Academy of Sciences (中国科学院成都有机化学有限公司)
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Chinese Academy of Sciences Holdings Co., Ltd. (中国科学院国有资产经营有限责任公司)
translated by b-science.net

Inventors:
魏志凯
闫新秀
叶长英
瞿美臻

84 -4 CN 108075160 A
25-05-2018
EPO Reference
Titles:
High-temperature stable glass-based fuel cell proton exchange membrane and preparation method
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种高温稳定的玻璃基燃料电池质子交换膜及制备方法

Abstracts:

Applicant:
Chengdu New Keli Chemical Technology Co., Ltd. (成都新柯力化工科技有限公司)
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Inventors:
陈庆
曾军堂

85 -4 CN 108172797 A
15-06-2018
EPO Reference
Titles:
Lithium-sulfur battery cathode material preparation method
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种锂硫电池正极材料的制备方法

Abstracts:

Applicant:
Zhaoqing City, China Normal University Optoelectronics Industry Research Institute (肇庆市华师大光电产业研究院)
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Inventor:
张永光

86 -6 CN 107768638 A
06-03-2018
EPO Reference
Titles:
Lithium-sulfur battery positive electrode material and lithium-sulfur battery using the same
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种锂硫电池正极材料和使用该正极材料的锂硫电池

Abstracts:

Applicant:
Beijing Institute of Technology (北京理工大学)
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Inventors:
杨文
刘珍珍
张小玲

87 -6 US 2018123136 A1
03-05-2018
EPO Reference
Title:
TRANSITION METAL CONTAINING NITROGEN-DOPED CARBON SUPPORT STRUCTURE FOR SULFUR ACTIVE MATERIAL AS A CATHODE FOR A LITHIUM-SULFUR BATTERY

Abstract:

Applicant:
NISSAN NORTH AMERICA INC [US]

Inventors:
GUMECI CENK [US]
ATIENZA DIANNE [US]

88 -7 CN 107910194 A
13-04-2018
EPO Reference
Titles:
Preparation method of nano-fibre-like leek-red doped polyaniline electrode material
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种纳米纤维状苋菜红掺杂聚苯胺电极材料的制备方法

Abstracts:

Applicant:
Fuzhou University (福州大学)
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Inventors:
李宝铭
施明伟
百梦弟

89 -8 TW 201809088 A
16-03-2018
EPO Reference
Title:
Method of fabricating separation film with low cost

Abstract:

Applicant:
INSTITUTE OF NUCLEAR ENERGY RESEARCH ATOMIC ENERGY COUNCIL [TW]

Inventors:
LIN CHIEN-HONG [TW]
YANG MING-CHIEN [TW]
WEI HWA-JOU [TW]

Other family members:
TW I591104 B, Pub. Date: 2017-07-11, EPO Reference

90 -10 CN 108110291 A
01-06-2018
EPO Reference
Titles:
High-temperature-resistant ceramic matrix exchange membrane for fuel cell and preparation method thereof
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种燃料电池用耐高温陶瓷基质子交换膜及其制备方法

Abstracts:

Applicant:
Chengdu New Keli Chemical Technology Co., Ltd. (成都新柯力化工科技有限公司)
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Inventors:
陈庆
曾军堂

91 -11 US 2018123133 A1
03-05-2018
EPO Reference
Title:
IN SITU FORMATION OF SULFUR PARTICLES USING ORGANIC ACIDS IN THE PRESENCE OF POLYMER FUNCTIONALIZED CARBON

Abstract:

Applicant:
TOYOTA ENG & MFG NORTH AMERICA [US]

Inventors:
MULDOON JOHN [US]
BUCUR CLAUDIU B [US]

Other family members:
JP 2018073813 A, Pub. Date: 2018-05-10, EPO Reference
CN 108011081 A, Pub. Date: 2018-05-08, EPO Reference

92 -13 CN 107880294 A
06-04-2018
EPO Reference
Titles:
Amino-containing sulfonated polyaryletherketone sulfone/amino acid functionalized inorganic particle composite proton exchange membrane
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含氨基的磺化聚芳醚酮砜/氨基酸官能化无机粒子复合型质子交换膜

Abstracts:

Applicant:
Changchun Industrial College (长春工业大学)
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Inventors:
王哲
臧欢
韩金龙

93 -18 CN 108172876 A
15-06-2018
EPO Reference
Titles:
Mixed sulfonated polyaryl ether or thioether phosphine oxide and fluorine resin blended proton exchange membrane and preparation method thereof
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种磺化聚芳醚或硫醚氧膦与含氟树脂共混质子交换膜及其制备方法

Abstracts:

Applicant:
Shanghai University of Applied Sciences (上海应用技术大学)
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Inventors:
程言营
廖慧英
肖繁花

94 -22 CN 107799797 A
13-03-2018
EPO Reference
Titles:
Microbial fuel cell anode and preparation method thereof
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种微生物燃料电池阳极及其制备方法

Abstracts:

Applicant:
South China Normal University (华南师范大学)
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Inventors:
李伟善
李鸿英
廖波

95 -22 CN 108134115 A
08-06-2018
EPO Reference
Titles:
Modified polyphosphazene proton exchange membrane for fuel cell and preparation method
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种燃料电池用改性聚膦腈质子交换膜及制备方法

Abstracts:

Applicant:
Chengdu New Keli Chemical Technology Co., Ltd. (成都新柯力化工科技有限公司)
translated by b-science.net

Inventors:
陈庆
廖健淞

96 -23 CN 108070098 A
25-05-2018
EPO Reference
Titles:
Inorganic particle composite proton exchange membrane for fuel cell and preparation method thereof
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燃料电池用无机粒子复合型质子交换膜及其制备方法

Abstracts:

Applicant:
Changchun Industrial College (长春工业大学)
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Inventors:
王哲
王蕾
田雪
李名卉
罗雪妍
臧欢

97 -35 CN 108134117 A
08-06-2018
EPO Reference
Titles:
Liquid glass composite proton exchange membrane for fuel cells and preparation method
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种燃料电池用液态玻璃复合质子交换膜及制备方法

Abstracts:

Applicant:
Chengdu New Keli Chemical Technology Co., Ltd. (成都新柯力化工科技有限公司)
translated by b-science.net

Inventors:
陈庆
曾军堂

98 -44 CN 108123154 A
05-06-2018
EPO Reference
Titles:
Pyridine type composite proton exchange membrane for fuel cells and preparation method
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种燃料电池用吡啶类复合质子交换膜及制备方法

Abstracts:

Applicant:
Chengdu New Keli Chemical Technology Co., Ltd. (成都新柯力化工科技有限公司)
translated by b-science.net

Inventors:
陈庆
廖健淞