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    • 63. 发明申请
    • ELECTRODE FOR COLD-CATHODE FLUORESCENT LAMP
    • 冷阴极荧光灯电极
    • US20090108731A1
    • 2009-04-30
    • US11996736
    • 2007-03-15
    • Koji NittaShinji InazawaAkihisa HosoeKazuo YamazakiHisashi Tokuda
    • Koji NittaShinji InazawaAkihisa HosoeKazuo YamazakiHisashi Tokuda
    • H01J1/30
    • H01J61/0675
    • A cold-cathode fluorescent lamp having high brightness with long life and an electrode for this lamp are offered. At least one part of the electrode surface is formed by using one material selected from the group consisting of rhodium, palladium, and alloys of these. For example, a surface layer made of the foregoing material is formed on a base. To increase the bonding strength between the surface layer and the base, a bonding layer made of gold or gold alloy is formed on the base. Because a metal such as rhodium is resistant to alloying with mercury and has a high melting point, a cold-cathode fluorescent lamp provided with an electrode made of the foregoing metal can suppress not only the consumption of the mercury due to the formation of an amalgam but also the reduction in brightness due to insufficient discharging. Furthermore, because the lamp can suppress the consumption of the mercury and electrode, the lamp has long life.
    • 提供具有高亮度和长寿命的冷阴极荧光灯和用于该灯的电极。 电极表面的至少一部分通过使用选自铑,钯及其合金中的一种材料形成。 例如,在基材上形成由上述材料制成的表面层。 为了增加表面层与基体的接合强度,在基材上形成由金或金合金构成的接合层。 由于诸如铑的金属对汞的合金化具有高熔点,所以设置有由上述金属制成的电极的冷阴极荧光灯不仅可以抑制由汞齐形成的汞的消耗 而且由于放电不足导致的亮度降低。 此外,因为灯可以抑制水银和电极的消耗,所以灯寿命长。
    • 66. 发明申请
    • Fine electroforming mold and manufacturing method thereof
    • 精细电铸模具及其制造方法
    • US20050115826A1
    • 2005-06-02
    • US10503496
    • 2003-02-18
    • Koji NittaShinji InazawaAkihisa Hosoe
    • Koji NittaShinji InazawaAkihisa Hosoe
    • C25D1/00C25D1/10B05D5/12
    • C25D1/10
    • The present invention provides a mold for fine electroforming M having a simple structure. In order to improve the productivity of a metal product, an electrode portion can be arranged with a much higher density, and a metal thin film formed on the electrode portion can easily be peeled off. The present invention provides a manufacturing method for manufacturing the mold M with a higher accuracy and by an easier way. The mold for fine electroforming M has a conductive substrate 1 to function as a cathode during electroforming and insulation layer 2 having an opening 21, which has a shape corresponding to a shape of a plane shape of the metal product P and is through to the conductive substrate 1, and composed of an inorganic insulation material having a thickness T2 of not less than 10 nm and less than one-half the thickness T1 of the metal product P. The surface of the conductive substrate 1 exposed at the opening 21 is adapted to serve as the electrode portion. The manufacturing method of the mold M has steps of: forming an inorganic thin film 2′ to grow into the insulation layer 2 in an area excluding an area, where resist film R is pattern-formed, on the surface of the conductive substrate 1; and removing the resist film R to form the opening 21.
    • 本发明提供一种具有简单结构的精细电铸M的模具。 为了提高金属制品的生产率,可以以更高的密度布置电极部分,并且可以容易地剥离形成在电极部分上的金属薄膜。 本发明提供一种以更高的精度和更容易的方式制造模具M的制造方法。 用于精细电铸的模具M具有导电基板1,其在具有开口21的电铸和绝缘层2中用作阴极,该开口21具有与金属产品P的平面形状相对应的形状,并且通过导电 基板1,并且由金属产品P的厚度T 2 N以上且小于10nm且小于金属产品P的厚度T 1的一半的无机绝缘材料构成 在开口部21露出的导电性基板1的表面适合用作电极部。 模具M的制造方法具有以下步骤:在导电基板1的表面上除了图案形成抗蚀剂膜R的区域之外的区域中形成无机薄膜2'以生长到绝缘层2中; 并除去抗蚀剂膜R以形成开口21。