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    • 2. 发明公开
    • 활성탄에 금속산화물을 복합화한 전극 제조방법과 이를 이용한 비대칭 전극 구조를 갖는 CDI 셀
    • 金属氧化物在活性炭上的配位和使用非对称电极结构的CDI电池的制备方法
    • KR1020120133303A
    • 2012-12-10
    • KR1020110051916
    • 2011-05-31
    • (주) 퓨리켐
    • 김한주육영재유선경이보람
    • C02F1/28C02F1/461C02F9/00
    • C02F1/283C02F1/461C02F9/00
    • PURPOSE: A preparation method of an activated carbon and metal oxide complexated electrode and a capacitive deionization(CDI) cell with an asymmetry electrode structure using the same are provided to increase the stability of electrode. CONSTITUTION: A preparation method of an activated carbon and metal oxide complexated electrode includes the following steps: activated carbon, isopropyl alcohol, and titanium tetraisoproxide(TTIP) are introduced into an ultrasound wave reactor under an ultrasound wave emission condition; the TTIP is uniformly dispersed in the activated carbon to be coated; and the TTIP uniformly dispersed and coated activated carbon is plasticized at high temperatures to prepare active materials. The active materials are complexes which complexes TiO_2 on activated carbon. Electrode paste is prepared by stirring the active materials and a polytetrafluoroethylene solution and adding a solvent into the stirred product and is shaped into sheets using a roll press. The sheets are dried to volatile the solvent. [Reference numerals] (AA) Time(s) vs symmetry; (BB) Time(s) vs asymmetry; (CC) TDS/g; (DD) Time(s)
    • 目的:提供具有不对称电极结构的活性炭和金属氧化物络合电极和电容去离子(CDI)电池的制备方法,以增加电极的稳定性。 构成:活性炭和金属氧化物络合电极的制备方法包括以下步骤:在超声波发射条件下将活性炭,异丙醇和四异丙氧基钛(TTIP)引入超声波反应器; TTIP均匀分散在待涂覆的活性炭中; 并将TTIP均匀分散涂布的活性炭在高温下进行增塑以制备活性材料。 活性物质是在活性炭上复合TiO_2的络合物。 通过搅拌活性物质和聚四氟乙烯溶液并将溶剂加入到搅拌产物中并使用辊压成型为片材来制备电极糊料。 将片干燥以使溶剂挥发。 (标号)(AA)时间与对称性; (BB)时间vs不对称; (CC)TDS / g; (DD)时间
    • 3. 发明授权
    • 티탄산리튬을 이용한 3V급 하이브리드 커패시터
    • 3V混合电容器使用钛酸锂
    • KR101182107B1
    • 2012-09-12
    • KR1020110093406
    • 2011-09-16
    • (주) 퓨리켐
    • 김한주육영재양정진신재열
    • H01G9/058H01G9/042
    • PURPOSE: A 3V hybrid capacitor with lithium titanate is provided to supply a capacitor with high reliability by decomposing an electrolyte using optimal electrode balancing. CONSTITUTION: A cathode electrode structure(10) includes a coupling hole for mounting a spring. An anode electrode structure(20) includes a coupling hole for mounting a spring. A reference electrode structure(30) is located between the cathode electrode structure and the anode electrode structure. A spring(401), a pressurized electrode(402) and a cathode electrode(403) are formed between the cathode electrode structure and the reference electrode structure. A spring(401'), a pressurized electrode(402') and an anode electrode(403') are formed between the anode electrode structure and the reference electrode structure.
    • 目的:提供一种具有钛酸锂的3V混合电容器,通过使用最佳电极平衡分解电解质为电容器提供高可靠性。 构成:阴极电极结构(10)包括用于安装弹簧的联接孔。 阳极电极结构(20)包括用于安装弹簧的联接孔。 参考电极结构(30)位于阴极电极结构和阳极电极结构之间。 在阴极电极结构和参考电极结构之间形成弹簧(401),加压电极(402)和阴极电极(403)。 在阳极电极结构和参考电极结构之间形成有弹簧(401'),加压电极(402')和阳极电极(403')。
    • 4. 发明公开
    • 전기이중층 커패시터용 활성탄 개질방법
    • 电动双层电容器的活性炭改性方法
    • KR1020140067187A
    • 2014-06-05
    • KR1020120121765
    • 2012-10-31
    • (주) 퓨리켐
    • 박수길김한주양정진육영재김홍일
    • C01B31/12H01G11/22
    • Y02E60/13H01G11/34C01B32/318
    • The present invention relates to a method for reforming activated carbon for an electric double layer capacitor, and more specifically, to a method for reforming activated carbon for an electric double layer capacitor which comprises a step of pre-treating activated carbon by putting activated carbon into hydrogen peroxide (H2O2) solution and stirring for a predetermined time; a step of removing the remaining hydrogen peroxide in the activated carbon by repeating a process of compressing, filtering and washing the activated carbon which has passed through the activated carbon pretreatment step; a step of drying the activated carbon which has passed through the hydrogen peroxide removing step; and a step of heating the activated carbon under an inactivating condition in which nitrogen gas is continuously injected, after the carbon has passed through the drying step.
    • 本发明涉及一种用于双电层电容器的活性炭重整方法,更具体地说,涉及一种用于双电层电容器的活性炭重整方法,包括通过将活性炭预先处理活性炭的步骤 过氧化氢(H 2 O 2)溶液并搅拌预定时间; 通过重复压缩,过滤和洗涤已经通过活性炭预处理步骤的活性炭的过程来除去活性炭中剩余的过氧化氢的步骤; 干燥已经通过过氧化氢去除步骤的活性炭的步骤; 在碳经过干燥工序后,在连续注入氮气的失活状态下加热活性炭的工序。
    • 5. 发明公开
    • 슈퍼커패시터 전극의 제조방법
    • 超级电极电极的制造方法
    • KR1020130140955A
    • 2013-12-26
    • KR1020120053430
    • 2012-05-21
    • (주) 퓨리켐한국세라믹기술원
    • 노광철조민영주용택박선민김한주육영재신재열
    • H01G11/22H01G9/042
    • Y02E60/13H01G11/30H01G11/78H01G13/02
    • The present invention relates to a method for manufacturing a super capacitor electrode including the following steps of: adding polytetrafluoroethylene, an electrode active material, a conductor, a dispersion medium, and one or more materials among sucrose, citric acid, and oleic acid and performing a wet blending in order to be evenly dispersed; forming in a sheet shape having 100 μm to 2 mm of thickness by rolling the composite for electrode which is formed by the wet blending; punching or cutting the composite sheet for electrode which is formed by rolling at a targeted size; and obtaining an electrode sheet by drying the punched or cut output. The present invention: shortens a wet blending time; improves formability, the durability of an electrode, the impregnation of an electrolyte, and electrode density; increases the flexibility of the electrode; improves middle/high rate discharge capacity; increases energy density; and minimizes a discharge capacity deviation in the electrode.
    • 超级电容器电极的制造方法技术领域本发明涉及一种超级电容器电极的制造方法,包括以下步骤:在蔗糖,柠檬酸和油酸中加入聚四氟乙烯,电极活性物质,导体,分散介质和一种或多种材料, 湿混合以均匀分散; 通过轧制通过湿式混合形成的电极用复合体,形成厚度为100μm〜2mm的片状, 冲压或切割以目标尺寸轧制形成的电极复合片材; 并通过干燥冲压或切割的输出来获得电极片。 本发明:缩短湿混合时间; 提高成型性,电极的耐久性,电解液浸渍和电极密度; 增加电极的柔性; 改善中高压放电容量; 增加能量密度; 并且使电极中的放电容量偏差最小化。
    • 8. 发明授权
    • CDI 전극용 도전성 접착제 및 이를 이용한 전극제조방법
    • 用于CDI电极的电导率粘合剂和使用该电极的电极的制备
    • KR100939793B1
    • 2010-01-29
    • KR1020090069272
    • 2009-07-29
    • (주) 퓨리켐
    • 김한주김희정육영재이보람박수길
    • C09J9/02C09J103/02C09J11/04C08L3/02
    • C09J11/08C08K3/04C08L5/04C09J9/02C09J11/04C25B11/04
    • PURPOSE: An electro-conductive adhesive is provided to increase adhesion between the surfaces by reducing the lifting and air gap of the surface of a carbon sheet as a current collector and porous activated carbon as an electrode material. CONSTITUTION: A method for manufacturing an electrode using conductive adhesives for CDI electrode comprises the steps of: adding 2~10 wt% binder of alginate or propylene glycol alginate, 2~10 wt% cross-linking agent of organic acid or their derivative, and 2~15 wt% conductive material of carbon black to 70~94 wt% dispersing medium of deionized water to manufacture conductive adhesives; applying the conductive adhesive on the surface of a carbon sheet, and heating and drying the coating material to prepare a conductive adhesive layer with a dry thickness of 0.2~50 micron; applying activated charcoal slurry as an electrode material; and pressing the dried material to improve the homogeneity of the electrode.
    • 目的:提供一种导电粘合剂,通过减少作为集电器的碳片表面的提升和气隙以及作为电极材料的多孔活性炭来增加表面之间的粘合。 构成:使用用于CDI电极的导电粘合剂制造电极的方法包括以下步骤:加入2〜10重量%的藻酸盐或丙二醇藻酸盐的粘合剂,2〜10重量%的有机酸或其衍生物的交联剂,以及 2〜15重量%的炭黑导电材料,以70〜94重量%的去离子水分散介质制造导电胶; 将导电性粘合剂涂布在碳片的表面上,加热干燥涂料,制成干燥厚度为0.2〜50微米的导电性粘合剂层; 应用活性炭浆作为电极材料; 并压制干燥的材料以改善电极的均匀性。
    • 10. 发明授权
    • 리튬 금속 분체를 이용한 리튬이온커패시터 제조방법
    • 使用锂金属粉末的锂离子电容器的制造方法
    • KR101503807B1
    • 2015-03-19
    • KR1020130130137
    • 2013-10-30
    • (주) 퓨리켐
    • 김한주육영재홍경미
    • H01G11/84
    • 본 발명은 양극 활물질을 포함하는 양극; 음극 활물질을 포함하는 음극; 및 이들 사이에 채워지는 전해질;을 포함하는 리튬이온 커패시터에 관한 것으로서, 더욱 상세하게는 상기 리튬이온 커패시터는 리튬 금속 분체를 도포한 양극 활물질을 포함하는 양극제조 단계와, 상기 리튬 금속 분체가 도포된 양극 활물질을 포함하는 양극과 음극을 순차적으로 적층하여 셀을 이루되, 상기 양극와 음극 사이에 전해지를 지그재그 방식으로 적층하여 셀을 이루고, 상기 셀에 리튬계 전해액을 주입하여 진공함침 과정을 거쳐 조립된 커패시터 셀을 제조하는 단계와, 상기 조립된 커패시터 셀의 양극과 음극을 도선으로 연결하여 정전류로 4.0V까지 충전함으로써, 리튬 금속 분체를 이온화하여 음극 전극 표면에 흡착시키는 단계를 거쳐 이루어지는 리튬 금속 분체를 이용한 리튬이온커패시터 제조방법에 관한 것이다.
    • 本发明涉及一种锂离子电容器,其包括具有正极活性物质的阴极; 具有负极活性物质的阳极; 以及填充在阴极和阳极之间的电解质。 更具体地说,通过使用锂金属粉末制造锂离子电容器的方法包括以下步骤:制备包括其上涂覆有锂金属粉末的正极活性物质的阴极; 通过顺序地堆叠包括其上涂覆有锂金属粉末的阴极活性材料的阴极和阳极来形成电容器单元,其中通过以Z字形图案在阴极和阳极之间层叠电解质而形成电池,并通过真空组装 将锂基电解质注入电池的浸渍方法; 并且通过以恒定电流将组装的电容器充电至4.0V来电离锂金属电力,以将锂金属电力吸收并附着到阳极电极表面上,其中组装的电容器的阴极和阳极通过导电 线。