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    • 3. 发明专利
    • Three-dimensional micromechanical element including a functional thin film and a method of forming the film
    • 三维微电子元件,包括功能薄膜和形成薄膜的方法
    • JP2014136262A
    • 2014-07-28
    • JP2013004393
    • 2013-01-15
    • Kyushu Institute Of Technology国立大学法人九州工業大学
    • MURAKAMI SUNAOITO TAKAHIRO
    • B81B7/02B81C1/00
    • PROBLEM TO BE SOLVED: To make it possible to produce two or more functional thin films having no overlap regions on the surface of a movable structure portion of a three-dimensional microstructure in a desired shape and a desired pattern according to an intended purpose using a general-purpose solution applicator.SOLUTION: A groove structure pattern 11 surrounding at least a part of micro-regions 12 in which thin films are to be formed is produced on a surface of a three-dimensional microstructure 10 including a movable structure portion in advance. A solution containing a material to become the thin films is applied and extended to outer edges of the three-dimensional microstructure 10 and into each of the micro-regions 12 surrounded by the groove structure pattern 11, and a solvent of the solution is evaporated, thereby making it possible to produce functional thin films 13 such as gas sensitive films only in the micro-regions 12. This method uses a mechanism in which the regions over which the solution spreads is restricted inside the micro-regions 12 since an outer edge of a liquid droplet of the applied solution can have a larger contact angle on edges of the groove structure pattern 11 than on a flat surface thereof by as much as a groove bending angle.
    • 要解决的问题:为了可以根据预期目的在使用期望的形状的三维微结构的可移动结构部分的表面上产生两个或更多个不具有重叠区域的功能薄膜和期望的图案,使用 通用溶液涂布器。解决方案:在预先包括可移动结构部分的三维微结构10的表面上产生围绕要在其中形成薄膜的微区12的至少一部分的凹槽结构图案11 。 将包含成为薄膜的材料的溶液施加并延伸到三维微结构10的外边缘并且被凹槽结构图案11包围的每个微区域12中,溶液的溶剂蒸发, 从而使得可以仅在微区域12中产生诸如气体敏感膜的功能性薄膜13.该方法使用这样的机构,其中溶液扩散的区域被限制在微区域12内,因为外部边缘 所施加的溶液的液滴可以在槽结构图案11的边缘上具有比其平坦表面上更大的沟槽弯曲角度的更大的接触角。
    • 5. 发明专利
    • Method of manufacturing polishing pad molding die, polishing pad molding die manufactured by the same method, and polishing pad manufactured by the same die
    • 制造抛光板模具的方法,由相同方法制造的抛光垫模具和由相同模具制造的抛光垫
    • JP2014008692A
    • 2014-01-20
    • JP2012147422
    • 2012-06-29
    • Mishima Kosan Co Ltd三島光産株式会社Kyushu Institute Of Technology国立大学法人九州工業大学
    • TASHIRO YASUNORITAKADA MASATONAKA TOSHIAKIMATSUO MASAAKIITO TAKAHIROSUZUKI YOSHITOMOKIMURA KEIICHIKHAJORNRUNGRUANG PANART
    • B29C33/38B24B37/26H01L21/304
    • PROBLEM TO BE SOLVED: To provide a method of manufacturing a polishing pad molding die in which a polishing pad that performs a flattening work highly accurately and highly efficiently is manufactured, a polishing pad molding die manufactured by the method, and a polishing pad manufactured by the die.SOLUTION: A method of manufacturing a polishing pad molding die 10 for a polishing pad 13 on which a micro pattern A having fine protrusions 12 arranged thereon has: a positive die fabrication process of forming fine reaction protrusions having the same dimensions as the fine protrusions 12 in accordance with arrangement of the fine protrusions 12 on one surface side of a substrate to fabricate a positive die having a micro pattern B on which the fine reaction protrusions are arrayed; a negative die fabrication process of fabricating a negative die on which a micro pattern C, in which fine recesses having the same dimensions as the fine reaction protrusions and an inverted concavo-convex relationship are arrayed, is formed, from the positive die at a position corresponding to the fine reaction protrusions; and an assembly process of closely arranging the negative die 18 on a base 17 while setting the surface on which the micro pattern C is formed to a front side to fabricate the polishing pad molding die 10.
    • 要解决的问题:提供一种制造抛光垫成型模具的方法,其中制造高精度高效地进行压平加工的抛光垫,通过该方法制造的抛光垫成型模具和由该方法制造的抛光垫, 该抛光垫成型模具10用于抛光垫13,在其上具有布置有微细突起12的微图案A具有:正模制造工艺,其形成具有相同尺寸的精细反应突起 根据在基板的一个表面侧上的细微突起12的布置的细突起12,以制造具有微细图案B的正模具,精细反应突起排列在其上; 制造负模具的负模制造工艺,在其上排列具有与微细反应突起具有相同尺寸的微细凹槽和倒置凹凸关系的微图案C,其中,从正模具在位置 对应于微细反应突起; 以及将负模具18紧密地布置在基座17上,同时将形成有微图案C的表面设置在前侧以制造抛光垫成型模具10的组装过程。