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    • 4. 发明申请
    • Phosphate dispersant, paste composition and dispersion method using the same
    • 磷酸盐分散剂,糊剂组合物和使用其的分散方法
    • US20070012899A1
    • 2007-01-18
    • US11319448
    • 2005-12-29
    • Eun-sung LeeJae-young ChoiSeon-mi YoonSeul-ki KimJun-hee KimJong-gab Baek
    • Eun-sung LeeJae-young ChoiSeon-mi YoonSeul-ki KimJun-hee KimJong-gab Baek
    • H01B1/12
    • H01G4/0085H01G4/30
    • A phosphate dispersant which can improve the efficiency of dispersing nickel metal powder by effectively adsorbing on the surface of the metal powder and preventing aggregation thereof, and a paste composition and a dispersion method using the same are provided. A multilayer ceramic capacitor (MLCC) is also provided. The phosphate dispersant can achieve the optimal dispersion efficiency by strongly adsorbing on the surface of the nickel metal powder. An improvement in the dispersion efficiency as such can consequently suppress aggregation of the nickel metal powder during the preparation of a conductive paste composition containing a nickel metal powder, and therefore a larger amount of the nickel metal powder can be used in the paste composition. The increased amount of nickel metal powder allows producing an internal nickel electrode having improved electric properties and mechanical properties during the production of MLCCs.
    • 一种磷酸盐分散剂,其可以通过有效吸附金属粉末的表面并防止其聚集而提高分散镍金属粉末的效率,以及糊料组合物和使用其的分散方法。 还提供了多层陶瓷电容器(MLCC)。 磷酸盐分散剂可以通过强烈吸附在镍金属粉末的表面上达到最佳的分散效率。 因此,在制备含有镍金属粉末的导电性糊料组合物时,分散效率的改善因此可以抑制镍金属粉末的聚集,因此可以在糊料组合物中使用更多量的镍金属粉末。 镍金属粉末的增加量允许制造在生产MLCC期间具有改善的电性能和机械性能的内部镍电极。
    • 5. 发明授权
    • Mixed dispersant, paste composition and dispersion method using the same
    • 混合分散剂,糊剂组合物和使用其的分散方法
    • US07463477B2
    • 2008-12-09
    • US11318558
    • 2005-12-28
    • Seon-mi YoonEun-sung LeeJae-young ChoiSeul-ki KimJong-gab BaekSeo-ho Lee
    • Seon-mi YoonEun-sung LeeJae-young ChoiSeul-ki KimJong-gab BaekSeo-ho Lee
    • H01G4/06
    • H01G4/0085H01G4/30
    • A mixed dispersant which can improve the efficiency of dispersing metal powder by effectively adsorbing on the surface of the metal powder and preventing aggregation thereof, and a paste composition and a dispersion method using the same are provided. A multilayer ceramic capacitor (MLCC) is also provided. The mixed dispersant includes a basic dispersant and an acidic dispersant in accordance with the acidity and basicity of nickel metal powder and thus can achieve an optimal dispersion efficiency. An improvement in the dispersion efficiency as such can consequently suppress aggregation of the nickel metal powder during the preparation of a conductive paste composition containing a nickel metal powder, and therefore a larger amount of the nickel metal powder can be used in the paste composition. The increased amount of nickel metal powder allows producing an internal nickel electrode having improved electric properties and mechanical properties during the production of MLCCs.
    • 提供一种混合分散剂,其可以通过有效地吸附在金属粉末的表面上并防止其聚集来提高分散金属粉末的效率,以及糊料组合物和使用其的分散方法。 还提供了多层陶瓷电容器(MLCC)。 根据镍金属粉末的酸度和碱度,混合分散剂包括碱性分散剂和酸性分散剂,从而可以获得最佳的分散效率。 因此,在制备含有镍金属粉末的导电性糊料组合物时,分散效率的改善因此可以抑制镍金属粉末的聚集,因此可以在糊料组合物中使用更多量的镍金属粉末。 镍金属粉末的增加量允许制造在生产MLCC期间具有改善的电性能和机械性能的内部镍电极。
    • 6. 发明申请
    • Mixed dispersant, paste composition and dispersion method using the same
    • 混合分散剂,糊剂组合物和使用其的分散方法
    • US20070014074A1
    • 2007-01-18
    • US11318558
    • 2005-12-28
    • Seon-mi YoonEun-sung LeeJae-young ChoiSeul-ki KimJong-gab BaekSeo-ho Lee
    • Seon-mi YoonEun-sung LeeJae-young ChoiSeul-ki KimJong-gab BaekSeo-ho Lee
    • H01G4/008
    • H01G4/0085H01G4/30
    • A mixed dispersant which can improve the efficiency of dispersing metal powder by effectively adsorbing on the surface of the metal powder and preventing aggregation thereof, and a paste composition and a dispersion method using the same are provided. A multilayer ceramic capacitor (MLCC) is also provided. The mixed dispersant includes a basic dispersant and an acidic dispersant in accordance with the acidity and basicity of nickel metal powder and thus can achieve an optimal dispersion efficiency. An improvement in the dispersion efficiency as such can consequently suppress aggregation of the nickel metal powder during the preparation of a conductive paste composition containing a nickel metal powder, and therefore a larger amount of the nickel metal powder can be used in the paste composition. The increased amount of nickel metal powder allows producing an internal nickel electrode having improved electric properties and mechanical properties during the production of MLCCs.
    • 提供一种混合分散剂,其可以通过有效地吸附在金属粉末的表面上并防止其聚集来提高分散金属粉末的效率,以及糊料组合物和使用其的分散方法。 还提供了多层陶瓷电容器(MLCC)。 根据镍金属粉末的酸度和碱度,混合分散剂包括碱性分散剂和酸性分散剂,从而可以获得最佳的分散效率。 因此,在制备含有镍金属粉末的导电性糊料组合物时,分散效率的改善因此可以抑制镍金属粉末的聚集,因此可以在糊料组合物中使用更多量的镍金属粉末。 镍金属粉末的增加量允许制造在生产MLCC期间具有改善的电性能和机械性能的内部镍电极。
    • 10. 发明授权
    • MEMS structure having a blocked-sacrificial layer support/anchor and a fabrication method of the same
    • 具有封闭牺牲层支撑/锚的MEMS结构及其制造方法
    • US06975010B2
    • 2005-12-13
    • US10320679
    • 2002-12-17
    • Eun-sung LeeMoon-chul LeeHyun-ok Kim
    • Eun-sung LeeMoon-chul LeeHyun-ok Kim
    • B81C1/00B81B3/00H01L29/82
    • B81B3/0078B81B2203/0307B81C2201/0109
    • A fabrication method for a MEMS structure, the MEMS structure including a fixing portion fixed to the substrate and a floating portion floating above the substrate. A sacrificial layer deposited on the substrate is patterned to have a groove forming a space surrounding the area corresponding to the area in which the fixing portion is to be formed. If the MEMS structure is deposited on the sacrificial layer, a sidewall is formed inside the space and the fixing portion and the floating portion are formed on the sacrificial layer. If the sacrificial layer is removed using an etchant, the sacrificial layer at the bottom of the fixing portion is protected from the etchant by the sidewall and accordingly, the sacrificial layer except the area surrounded by the sidewall is removed. Therefore, only the sacrificial layer under the floating portion is removed. Because the connecting portion is fabricated to have the same thickness as the fixing portion and the floating portion, a strong/durable MEMS structure is provided. Additionally, the boundary between the fixing portion and the floating portion can be precisely determined, and adjustment of the length of the floating portion can be precisely controlled.
    • 一种用于MEMS结构的制造方法,所述MEMS结构包括固定到所述基板的固定部分和浮置在所述基板上方的浮动部分。 沉积在基板上的牺牲层被图案化以具有形成围绕与要形成固定部分的区域相对应的区域的空间的凹槽。 如果MEMS结构沉积在牺牲层上,则在空间内形成侧壁,并且在牺牲层上形成固定部分和浮动部分。 如果使用蚀刻剂去除牺牲层,则固定部分底部的牺牲层被侧壁保护而不受蚀刻剂的影响,因此除去由侧壁包围的区域之外的牺牲层。 因此,只有在浮动部分下面的牺牲层被去除。 由于连接部分被制造成具有与固定部分和浮动部分相同的厚度,所以提供了强/耐久的MEMS结构。 此外,可以精确地确定固定部分和浮动部分之间的边界,并且可以精确地控制浮动部分的长度的调节。