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    • 2. 发明申请
    • DOUBLE-SIDED SUPER CAPACITOR AND METHOD FOR MAKING THE SAME
    • 双面超级电容器及其制造方法
    • WO2013100753A1
    • 2013-07-04
    • PCT/MY2012/000163
    • 2012-06-28
    • MIMOS BERHADWITJAKSONO, GunawanBIEN CHIA SHENG, DanielNABIPOOR, Mohsen
    • WITJAKSONO, GunawanBIEN CHIA SHENG, DanielNABIPOOR, Mohsen
    • H01G9/04H01G9/042H01G9/048H01G9/058H01G11/24H01G11/26H01G11/36
    • H01G11/36H01G11/24H01G11/26Y02E60/13Y02T10/7022
    • The present invention provides a nanostructured double-sided super capacitor device dial comprises a substrate, a first metal catalyst layer disposed on top of the substrate, an electric conductive layer disposed and etched on top of the first metal catalyst layer to form a plurality of finger electrodes and contact pads, wherein the plurality of the finger electrodes are configured to be interdigitated, a second metal catalyst layer disposed on the top of the finger electrodes; wherein, when the second metal catalyst layer is disposed, the substrate is etched to expose the first metal catalyst layer underneath of the finger electrodes, so that the top and bottom surfaces of the finger electrodes are exposed, carbon nanotubes (CNTs) extending from the exposed first and second metal catalyst layers of the finger electrodes, electrolyte filled into the finger electrodes and CNTs, and an encapsulating bottom and top encapsulating the interdigitated finger electrodes, CNTs and electrolyte to produce the nanostructured double-sided super capacitor device. The present invention also provides a process of fabricating the nano structured double sided super capacitor.
    • 本发明提供一种纳米结构的双面超级电容器装置拨盘,包括基板,设置在基板顶部的第一金属催化剂层,设置并蚀刻在第一金属催化剂层的顶部上以形成多个手指的导电层 电极和接触垫,其中所述多个指状电极被构造成交叉指向,设置在指状电极的顶部上的第二金属催化剂层; 其中,当设置所述第二金属催化剂层时,蚀刻所述基板以暴露所述指状电极下方的所述第一金属催化剂层,从而暴露所述指状电极的顶表面和底表面,从所述第二金属催化剂层延伸的碳纳米管 手指电极暴露的第一和第二金属催化剂层,填充到指状电极和CNT中的电解质,以及封装交错指状电极的封装底部和顶部,CNT和电解质以产生纳米结构的双面超级电容器器件。 本发明还提供一种制造纳米结构双面超级电容器的方法。
    • 3. 发明申请
    • A HEAT SINK AND A METHOD OF ENHANCING HEAT DISSIPATION THEREOF
    • 一种散热器及其散热方法
    • WO2012002796A1
    • 2012-01-05
    • PCT/MY2011/000051
    • 2011-05-23
    • MIMOS BERHADABDULLAH, Muhammad, SyargawiWITJAKSONO, Gunawan
    • ABDULLAH, Muhammad, SyargawiWITJAKSONO, Gunawan
    • H01L23/373G02B6/43H05K1/00
    • G02B6/4201G02B6/4269H05K1/0206H05K1/0207H05K2201/10121
    • A heat sink in an electronic circuit board (PCB) comprising a plurality of PCB layers (10) wherein a first PCB layer (100) is mountable with a plurality of electronic components (140) is provided, characterized in that, the heat sink includes at least one optical component (102) mountable on a first heat spreader (103), by a thermal cohesive means (104), wherein the first heat spreader (103) is attachable to the first PCB layer (100), a second PCB layer (110) is thermally conductible to the first PCB layer (100) by at least one thermal via (112), a third PCB layer (120) is thermally conductible to the second PCB layer (110) by the at least one thermal via (112), a bottom PCB layer (130) is thermally conductible to the third PCB layer (120) by the at least one thermal via (112), such that heat is conductible through the plurality of PCB layers (10) for enhanced thermal dissipation from the plurality of electronic components (140).
    • 提供了一种包括多个PCB层(10)的电子电路板(PCB)中的散热器,其中第一PCB层(100)可安装有多个电子部件(140),其特征在于,所述散热器包括 至少一个光学组件(102),可通过热粘合装置(104)安装在第一散热器(103)上,其中第一散热器(103)可附接到第一PCB层(100),第二PCB层 (110)通过至少一个热通孔(112)可导热到第一PCB层(100),第三PCB层(120)可通过至少一个热通孔(120)导热到第二PCB层(110) 112),通过所述至少一个热通孔(112),底部PCB层(130)可热传导到所述第三PCB层(120),使得热量可传导通过所述多个PCB层(10)以增强热耗散 来自所述多个电子部件(140)。
    • 4. 发明申请
    • A METHOD OF FABRICATING AN ENERGY HARVESTING MEANS AND A DEVICE THEREOF
    • 一种制造能量采集装置的方法及其装置
    • WO2013009164A1
    • 2013-01-17
    • PCT/MY2012/000146
    • 2012-06-26
    • MIMOS BERHADUZ., ZAMAN, Mukter A.S.MWITJAKSONO, GunawanOTHMAN, Masuri
    • UZ., ZAMAN, Mukter A.S.MWITJAKSONO, GunawanOTHMAN, Masuri
    • H01M6/40H01M8/10
    • H01M8/1097H01M6/40H01M6/42H01M6/46
    • A method of fabricating an energy harvesting means, the method includes the steps of depositing a metal conducting element (200) on a substrate (100), patterning the metal conducting element (200) such that a layer of metal with a plurality of grooves (220) are produced, depositing a solid polymer electrolyte (SPE) layer (300) on the metal conducting element (200), depositing a layer of air-electrode (400) on the SPE layer (300), patterning the layer of air-electrode (400) and the SPE layer (300) to produce grooves (420) connecting the metal conducting element (200), growing a conductive layer (500) between the metal conducting element (200), the SPE layer (300) and the layer of air-electrode (400), patterning the conductive layer (500) and the layer of air-electrode (400) to connect to the SPE layer (300) by a plurality of grooves (520) and forming a non-conductive layer (600) between the layer of air-electrode (400) and the plurality of layers, wherein the method includes connecting terminals and encapsulation of the energy harvesting means.
    • 一种制造能量收集装置的方法,所述方法包括以下步骤:将金属导电元件(200)沉积在基底(100)上,使金属导电元件(200)图案化,使得具有多个凹槽 220),在所述金属导电元件(200)上沉积固体聚合物电解质(300),在所述SPE层(300)上沉积空气电极层(400),将所述空气 - 电极(400)和SPE层(300),以产生连接金属导电元件(200)的凹槽(420),在金属导电元件(200),SPE层(300)和 空气电极层(400),图案化导电层(500)和空气电极层(400),以通过多个沟槽(520)连接到SPE层(300),并形成非导电层 (400)和所述多个层之间的所述方法(600),其中所述方法包括连接 终端和能量收集装置的封装。
    • 8. 发明申请
    • A SIX QUANTUM STATE PRODUCING ENCODER SYSTEM AND A METHOD OF PRODUCING THEREOF
    • 生产编码器系统的六个量子态及其生产方法
    • WO2012018246A1
    • 2012-02-09
    • PCT/MY2010/000293
    • 2010-11-25
    • MIMOS BERHADABDULLAH, Muhammad, SyargawiWITJAKSONO, GunawanMOKHTAR, Mohd, Hadri, Hafiz
    • ABDULLAH, Muhammad, SyargawiWITJAKSONO, GunawanMOKHTAR, Mohd, Hadri, Hafiz
    • H04B10/12H04L9/08
    • H04B10/70H04L9/0855
    • A six quantum state producing encoder system (100) for deterministic six states protocol of Quantum Key Distribution is provided, the system (100) includes at least three laser diodes (610, 620, 630), at least three current drivers (510, 520, 530) wherein each of the at least three laser diodes (610, 620, 630) are at different polarization states and each laser diode is drivable by each current driver, at least three switches (410, 420, 430) connectable to the at least three current drivers (510, 520, 530), at least one pulse width modulator (PWM) generator (220) connectable to the at least three switches (410, 420, 430) and a controller wherein the at least three switches (410, 420, 430) are triggerable by the controller, wherein the system (100) is configurable to select a pair of different laser diodes with new polarization states for every two consecutive period, wherein two different laser diodes are interchangeably triggered for every two consecutive periods for automatic production of six quantum states.
    • 提供了一种用于量子密钥分发的确定性六态协议的六量子态产生编码器系统(100),系统(100)包括至少三个激光二极管(610,620,630),至少三个电流驱动器 ,530),其中所述至少三个激光二极管(610,620,630)中的每一个处于不同的偏振状态,并且每个激光二极管可由每个电流驱动器驱动,至少三个可连接到所述激活二极管的开关(410,420,430) 至少三个电流驱动器(510,520,530),可连接到所述至少三个开关(410,420,430)的至少一个脉宽调制器(PWM)发生器(220)和控制器,其中所述至少三个开关 ,420,430)可由所述控制器触发,其中所述系统(100)可配置为每两个连续周期选择具有新偏振态的一对不同的激光二极管,其中两个不同的激光二极管可互换触发每两个连续周期 用于自动产品 六个量子态的离子。