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    • 2. 发明授权
    • Molds and method of using the same for forming plus or minus lenses
    • 模具及其使用方法用于形成正或负透镜
    • US07220120B2
    • 2007-05-22
    • US11188223
    • 2005-07-22
    • Kai SuRichard LuDavid WrightDebbie Makita
    • Kai SuRichard LuDavid WrightDebbie Makita
    • B28B3/00
    • B29D11/00528B29C33/40B29D11/00413B29D11/00538Y10S424/808Y10S425/808
    • The present invention encompasses, in part, a method and apparatus for lens casting in which two molds, preferably formed of plastic, are interconnected or joined together via a ring to form a mold cavity having substantially the same dimensions of the lens to be formed therein. The invention is further directed to compositions and methods used in lens casting. In a first implementation the invention includes a mold having a ring having an interior periphery; a front mold formed of a plastic and having a lens-forming surface, an edge circumscribing the lens-forming surface that is sized to be complementarily received within a portion of the interior periphery of the ring, and a base having dimensions greater than the interior periphery; and a rear mold formed of a plastic and having a lens-forming surface.
    • 本发明部分地包括一种用于透镜铸造的方法和装置,其中优选由塑料形成的两个模具通过环相互连接或连接在一起以形成具有与其中形成的透镜基本相同的尺寸的模腔 。 本发明还涉及用于镜片铸造中的组合物和方法。 在第一实施方式中,本发明包括一具有内周的环的模具; 由塑料形成并具有透镜形成表面的前模具,围绕透镜形成表面的边缘,其尺寸设计成互补地容纳在环的内周的一部分内,以及具有大于内部尺寸的尺寸的基座 周边; 以及由塑料形成并具有透镜形成表面的后模具。
    • 3. 发明申请
    • Molds and method of using the same for forming plus or minus lenses
    • 模具及其使用方法用于形成正或负透镜
    • US20060103041A1
    • 2006-05-18
    • US10992225
    • 2004-11-18
    • Kai SuRichard LuDavid WrightDebbie Makita
    • Kai SuRichard LuDavid WrightDebbie Makita
    • B29D11/00
    • B29D11/00528B29C33/40B29D11/00413B29D11/00538Y10S424/808Y10S425/808
    • The present invention encompasses, in part, a method and apparatus for lens casting in which two molds, preferably formed of plastic, are interconnected or joined together via a ring to form a mold cavity having substantially the same dimensions of the lens to be formed therein. The invention is further directed to compositions and methods used in lens casting. In a first implementation the invention includes a mold having a ring having an interior periphery; a front mold formed of a plastic and having a lens-forming surface, an edge circumscribing the lens-forming surface that is sized to be complementarily received within a portion of the interior periphery of the ring, and a base having dimensions greater than the interior periphery; and a rear mold formed of a plastic and having a lens-forming surface.
    • 本发明部分地包括一种用于透镜铸造的方法和装置,其中优选由塑料形成的两个模具通过环相互连接或连接在一起以形成具有与其中形成的透镜基本相同的尺寸的模腔 。 本发明还涉及用于镜片铸造中的组合物和方法。 在第一实施方式中,本发明包括一具有内周的环的模具; 由塑料形成并具有透镜形成表面的前模具,围绕透镜形成表面的边缘,其尺寸设计成互补地容纳在环的内周的一部分内,以及具有大于内部尺寸的尺寸的基座 周边; 以及由塑料形成并具有透镜形成表面的后模具。
    • 4. 发明授权
    • Molds and method of using the same for optical lenses
    • 用于光学透镜的模具及其使用方法
    • US08899547B2
    • 2014-12-02
    • US11698529
    • 2007-01-26
    • Kai SuDebbie Makita
    • Kai SuDebbie Makita
    • B29D11/00B28B7/38B29C33/30B29C33/40
    • B29D11/00009B29C33/30B29C33/40B29D11/00442B29D11/0048B29K2101/12B29K2105/0014B29K2833/12B29K2995/0039Y10S425/808
    • The present invention encompasses, in part, a method and apparatus for lens casting in which two molds, preferably formed of plastic, are interconnected or joined together via a ring to form a mold cavity having substantially the same dimensions of the lens to be formed therein. The invention is further directed to compositions and methods used in lens casting. In a first implementation the invention includes a mold having a ring having an interior periphery; a front mold formed of a plastic and having a lens-forming surface, an edge circumscribing the lens-forming surface that is sized to be complementarily received within a portion of the interior periphery of the ring, and a base having dimensions greater than the interior periphery; and a rear mold formed of a plastic and having a lens-forming surface.
    • 本发明部分地包括一种用于透镜铸造的方法和装置,其中优选由塑料形成的两个模具通过环相互连接或连接在一起以形成具有与其中形成的透镜基本相同的尺寸的模腔 。 本发明还涉及用于镜片铸造中的组合物和方法。 在第一实施方式中,本发明包括一具有内周的环的模具; 由塑料形成并具有透镜形成表面的前模具,围绕透镜形成表面的边缘,其尺寸设计成互补地容纳在环的内周的一部分内,以及具有大于内部尺寸的尺寸的基座 周边; 以及由塑料形成并具有透镜形成表面的后模具。
    • 7. 发明授权
    • Synthesis of polymer nanostructures with conductance switching properties
    • 具有电导转换性能的聚合物纳米结构的合成
    • US08968602B2
    • 2015-03-03
    • US12441706
    • 2007-10-02
    • Kai SuNurxat NurajeLingzhi ZhangHiroshi MatsuiNan Loh Yang
    • Kai SuNurxat NurajeLingzhi ZhangHiroshi MatsuiNan Loh Yang
    • H01B1/00H01M4/88H01L51/00H01B1/12H01L51/05
    • H01L51/0037H01B1/124H01L51/0575H01L51/0591
    • The present invention is directed to crystalline organic polymer nanoparticles comprising a conductive organic polymer; wherein the crystalline organic polymer nanoparticles have a size of from 10 nm to 200 nm and exhibits two current-voltage states: (1) a high resistance current-voltage state, and (2) a low resistance current-voltage state, wherein when a first positive threshold voltage (Vth1) or higher positive voltage, or a second negative threshold voltage (Vth2) or higher negative voltage is applied to the nanoparticle, the nanoparticle exhibits the low-resistance current-voltage state, and when a voltage less positive than the first positive threshold voltage or a voltage less negative than the second negative threshold voltage is applied to the nanoparticle, the nanoparticle exhibits the high-resistance current-voltage state. The present invention is also directed methods of manufacturing the nanoparticles using novel interfacial oxidative polymerization techniques.
    • 本发明涉及包含导电有机聚合物的结晶有机聚合物纳米颗粒; 其中所述结晶有机聚合物纳米颗粒具有10nm至200nm的尺寸,并且具有两种电流 - 电压状态:(1)高电阻电流 - 电压状态,和(2)低电阻电流 - 电压状态,其中当 第一正阈值电压(Vth1)或更高的正电压或第二负阈值电压(Vth2)或更高的负电压施加到纳米颗粒,纳米颗粒呈现低电阻电流 - 电压状态,并且当电压小于 将第一正阈值电压或比第二负阈值电压小的电压施加到纳米颗粒,纳米颗粒呈现高电阻电流 - 电压状态。 本发明还涉及使用新的界面氧化聚合技术制造纳米颗粒的方法。
    • 8. 发明申请
    • Process for Preparing Clustered Functional Polyorganosiloxanes, and Methods for Their Use
    • 制备聚合功能性聚有机硅氧烷的方法及其使用方法
    • US20120245272A1
    • 2012-09-27
    • US13508375
    • 2010-11-03
    • Stanton DentKai SuLauren TongeJames Tonge
    • Stanton DentKai SuLauren TongeJames Tonge
    • C08F8/00C08L83/07
    • C08G77/50C08L83/14
    • A hydrosilylation process is used to prepare a polyorganosiloxane having clustered functional groups at the polyorganosiloxane chain terminals. The ingredients used in the process include a) a polyorganosiloxane having an average of at least 2 aliphatically unsaturated organic groups per molecule, b) a polyorganohydrogensiloxane having an average of 4 to 15 silicon atoms per molecule and at least 4 silicon bonded hydrogen atoms for each aliphatically unsaturated organic group in ingredient a), c) a reactive species having, per molecule at least 1 aliphatically unsaturated organic group and 1 or more curable groups; and d) a hydrosilylation catalyst. The resulting clustered functional polyorganosiloxane is useful in a curable silicone composition for electronics applications.
    • 使用氢化硅烷化方法制备聚有机硅氧烷链末端具有聚簇官能团的聚有机硅氧烷。 在该方法中使用的成分包括a)每分子平均具有至少2个不饱和有机基团的聚有机硅氧烷,b)每个分子平均具有4至15个硅原子的平均有机硅氢氧化硅和每个分子具有至少4个硅键合的氢原子 成分a)中的脂族不饱和有机基团,c)每分子具有至少1个脂族不饱和有机基团和1个或更多个可固化基团的反应性物质; 和d)氢化硅烷化催化剂。 所得聚集的官能聚有机硅氧烷可用于电子应用的可固化硅氧烷组合物。
    • 9. 发明授权
    • Composition including a siloxane and a method of forming the same
    • 包含硅氧烷的组合物及其形成方法
    • US08222364B2
    • 2012-07-17
    • US12296815
    • 2007-04-10
    • Kai SuDuane R. BujalskiPeter Y. LoEric Kolb
    • Kai SuDuane R. BujalskiPeter Y. LoEric Kolb
    • C08G77/04C08G77/12
    • C08G77/38C08G77/12C08G77/20C08G77/70C08L83/04C08L83/00
    • A composition includes a siloxane of the formula: (RMe2SiO1/2)a(MeRSiO2/2)b(RSiO3/2)c(SiO4/2)d wherein a is at least 2, b is from 3 to 20, c is from 0 to 10, d is from 0 to 10, and each R is independently of the formula —CR′2—CR′2—Y—Z or CR′2—CR′2—Z, wherein each R′ is independently a hydrogen atom or a C1 to C10 hydrocarbyl free of aliphatic unsaturation so long as at least one R′ is a hydrogen atom, Y is a divalent organic group, and Z is a polycyclic group containing at least one aromatic ring. A method of making the siloxane includes charging (HMe2SiO1/2)a(MeHSiO2/2)b(HSiO3/2)c(SiO4/2)d, a platinum catalyst, and an alkene of the formula CR′2═CR′—Y—Z or CR′2═CR′—Z into a reactor to form the siloxane. The siloxane is useful as a component in holographic storage media for photopolymer-based holographic data storage applications. The siloxane exhibits excellent compatibility when mixed with a polymerizable component before the polymerizable component is cured. Furthermore, the siloxane exhibits excellent diffusion from polymers of the polymerizable component after partial and complete curing. The siloxane also has a high refractive index while maintaining the excellent compatibility and diffusion properties when mixed with polymerizable component.
    • 组合物包括下式的硅氧烷:(RMe2SiO1 / 2)a(MeRSiO2 / 2)b(RSiO3 / 2)c(SiO4 / 2)d其中a为至少2,b为3至20,c为 0至10,d为0至10,并且每个R独立于式-CR'2-CR'2-Y-Z或CR'2-CR'2-Z,其中每个R'独立地为氢 原子或不含脂肪族不饱和键的C1〜C10烃基,只要至少一个R'为氢原子,Y为二价有机基团,Z为含有至少一个芳环的多环基团。 制备硅氧烷的方法包括将(Mee 2 SiO 2/2)a(MeHSiO 2/2)b(HSiO 3/2)c(SiO 4/2)d,铂催化剂和式CR'2 = CR'- Y-Z或CR'2 = CR'-Z进入反应器以形成硅氧烷。 硅氧烷可用作用于基于光聚合物的全息数据存储应用的全息存储介质中的组分。 当可聚合组分固化之前,与可聚合组分混合时,硅氧烷显示出优异的相容性。 此外,部分和完全固化后,硅氧烷表现出可聚合组分的聚合物的极好扩散。 当与可聚合组分混合时,硅氧烷还具有高折射率,同时保持优异的相容性和扩散性。
    • 10. 发明申请
    • SYNTHESIS OF POLYMER NANOSTRUCTURES WITH CONDUCTANCE SWITCHING PROPERTIES
    • 具有导电开关特性的聚合物纳米结构的合成
    • US20090314998A1
    • 2009-12-24
    • US12441706
    • 2007-10-02
    • Kai SuNurxat NurajeLingzhi ZhangHiroshi MatsuiNan Loh Yang
    • Kai SuNurxat NurajeLingzhi ZhangHiroshi MatsuiNan Loh Yang
    • H01B1/12
    • H01L51/0037H01B1/124H01L51/0575H01L51/0591
    • The present invention is directed to crystalline organic polymer nanoparticles comprising a conductive organic polymer; wherein the crystalline organic polymer nanoparticles have a size of from 10 nm to 200 nm and exhibits two current-voltage states: (1) a high resistance current-voltage state, and (2) a low resistance current-voltage state, wherein when a first positive threshold voltage (Vth1) or higher positive voltage, or a second negative threshold voltage (Vth2) or higher negative voltage is applied to the nanoparticle, the nanoparticle exhibits the low-resistance current-voltage state, and when a voltage less positive than the first positive threshold voltage or a voltage less negative than the second negative threshold voltage is applied to the nanoparticle, the nanoparticle exhibits the high-resistance current-voltage state. The present invention is also directed methods of manufacturing the nanoparticles using novel interfacial oxidative polymerization techniques.
    • 本发明涉及包含导电有机聚合物的结晶有机聚合物纳米颗粒; 其中所述结晶有机聚合物纳米颗粒具有10nm至200nm的尺寸,并且具有两种电流 - 电压状态:(1)高电阻电流 - 电压状态,和(2)低电阻电流 - 电压状态,其中当 第一正阈值电压(Vth1)或更高的正电压或第二负阈值电压(Vth2)或更高的负电压施加到纳米颗粒,纳米颗粒呈现低电阻电流 - 电压状态,并且当电压小于 将第一正阈值电压或比第二负阈值电压小的电压施加到纳米颗粒,纳米颗粒呈现高电阻电流 - 电压状态。 本发明还涉及使用新的界面氧化聚合技术制造纳米颗粒的方法。