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    • 1. 发明专利
    • Conductive polyaniline and method for synthesizing the same
    • 导电聚苯胺及其合成方法
    • JP2010043260A
    • 2010-02-25
    • JP2009187853
    • 2009-08-13
    • Elpani Co Ltdエルパニ 株式会社
    • JUNG MYUNG JOKIM TAE JA
    • C08G73/02
    • C08G73/0266H01B1/128H01L51/0035H01L51/0043
    • PROBLEM TO BE SOLVED: To provide a new conductive polyaniline having extremely improved solubility in a general solvent and meltability by heat while maintaining the high electroconductivity, and to provide a method for synthesizing the polyaniline. SOLUTION: The substituted conductive polyaniline copolymer is synthesized by adding aniline derivatives to which hydrogen and a hydrophobic substituent are each independently attached (with the proviso that the case in which each substituent is the hydrogen is excluded), and aniline to which no substituent is attached, in a prescribed molar ratio to a mixture of a hydracid and an organic solvent, and polymerizing them. COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种在一般溶剂中具有极高改性溶解度的新型导电聚苯胺和通过热保持高导电性的熔融性,并提供一种合成聚苯胺的方法。 解决方案:通过加入其中氢和疏水取代基各自独立地连接的苯胺衍生物(条件是排除每个取代基是氢的情况)合成取代的导电聚苯胺共聚物,以及不含 取代基以规定的摩尔比与氢酸和有机溶剂的混合物连接,并使它们聚合。 版权所有(C)2010,JPO&INPIT
    • 2. 发明授权
    • Multi-mode key input device using transparent electrode and character display method thereof
    • 使用透明电极的多模式键输入装置及其字符显示方法
    • KR100952221B1
    • 2010-04-09
    • KR20090099349
    • 2009-10-19
    • ELPANI CO LTD
    • JUNG MYUNG JOKIM TAE JAYOON JONG JIN
    • G06F3/02H01H13/70
    • G06F3/0202H01H13/83
    • PURPOSE: A multi-mode key input device using a transparent electrode and a letter display method thereof are provided to make a transparent key input unit, thereby enabling a user to effectively check a letter of a lower end of the key input unit by a user. CONSTITUTION: A transparent key-top unit(110) moves toward the lower portion of a key input device corresponding to a pressing operation of a user. A dome switch unit electrically connects a fixed contact point unit(122). An input mode determining unit decides a letter input mode of the key input device. A letter display unit(200) selectively displays a letter corresponding to the key input unit.
    • 目的:提供一种使用透明电极和字母显示方法的多模式键输入装置,以形成透明键输入单元,从而使用户能够有效地检查用户的键输入单元的下端的字母 。 构成:对应于用户的按压操作,透明键顶单元(110)向键输入设备的下部移动。 半球开关单元电连接固定接触点单元(122)。 输入模式确定单元决定键输入装置的字母输入模式。 字母显示单元(200)选择性地显示与键输入单元对应的字母。
    • 3. 发明授权
    • Solid dopants for conductive polymers, method and apparatus for preparing the same using plasma treatment, and solid doping method of conductive polymers
    • 用于导电聚合物的固体聚合物,使用等离子体处理制备其的方法和装置以及导电聚合物的固体掺杂方法
    • KR100946598B1
    • 2010-03-09
    • KR20090035928
    • 2009-04-24
    • ELPANI CO LTDAJOU UNIV IND ACAD COOP FOUND
    • HONG YONG CHEOLLEE SUCK HYUNKWON O PILKIM TAE JA
    • C08J3/28C08J7/18C08K3/12H01L21/265
    • C08J3/212C08J2300/12H01L51/002
    • PURPOSE: A solid dopant is provided to enable doping of conductive polymer in a solvent while having high dispersibility using various plasma treatments and to stably manufacture a non-volatile conductive polymer. CONSTITUTION: A solid doping method of conductive polymer using plasma comprises: a step(S20) of synthesizing a dopant nanopowder for a solid dopant; a step(S100) of processing the dopant nanopowder using plasma; and a step(S60) of doping the conductive polymer by mixing the dopant nanopowder processed by the plasma with the conductive polymer dispersed in a solvent. The dopant nanopowder is selected from a group including titania, tungsten oxide, copper oxide, iron oxides, zinc oxidate, tin oxide, zirconium oxide, vanadium oxide, nickel oxide, cadmium oxide, selenium oxide, barium titanate, and the mixture or from a group including sulfate zinc, zinc iodide, barium iodide, sodium iodide, cesium iodine, lead iodide, zinc oxide, cesium bromide, barium bromide, ZnS, ZnCdS, Gd2O2S, Y2O2S, CaWO3, and ZnSiO4.
    • 目的:提供固体掺杂剂以使得能够在溶剂中掺杂导电聚合物,同时使用各种等离子体处理具有高分散性并稳定地制造非挥发性导电聚合物。 构成:使用等离子体的导电聚合物的固体掺杂方法包括:合成固体掺杂剂的掺杂剂纳米粉末的步骤(S20); 使用等离子体处理掺杂剂纳米粉末的步骤(S100) 以及通过将由等离子体处理的掺杂剂纳米粉末与分散在溶剂中的导电聚合物混合来掺杂导电聚合物的步骤(S60)。 掺杂剂纳米粉末选自二氧化钛,氧化钨,氧化铜,氧化铁,氧化锌,氧化锡,氧化锆,氧化钒,氧化镍,氧化镉,氧化硒,钛酸钡, 包括硫酸锌,碘化锌,碘化钡,碘化钠,碘化铯,碘化铅,氧化锌,溴化铯,溴化钡,ZnS,ZnCdS,Gd2O2S,Y2O2S,CaWO3和ZnSiO4。