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    • 5. 发明授权
    • Method and apparatus for driving pointing device of computer system
    • 用于驾驶计算机系统指示装置的方法和装置
    • US06466197B1
    • 2002-10-15
    • US09342829
    • 1999-06-28
    • Young-Jun KimSeong-Dong Kim
    • Young-Jun KimSeong-Dong Kim
    • G09G500
    • G06F3/038G06F3/04883
    • A method for driving a pointing device of a computer system is provided. In the method, a pointer is positioned in a user interface area for performing a specific command such as an icon, a menu bar, and a menu button. If the pointer is moved from the user interface area to a specific area over a predetermined distance, an amount of the position change of the pointer is detected and if the amount thereof corresponds to a button click of the pointing device, the same pointing signal as that of a corresponding button click is generated. It is therefore possible to perform the same function as a button click when the pointer is moved in a specific direction over a predetermined distance without using a button of the pointing device. Thus, a user is able to more conveniently use the pointing device, and changing a holding form while clicking the button of the stylus can be advantageously reduced or suppressed.
    • 提供了一种用于驱动计算机系统的指示装置的方法。 在该方法中,指针位于用户界面区域中,用于执行诸如图标,菜单栏和菜单按钮的特定命令。 如果指针从用户界面区域移动到预定距离的特定区域,则检测指针的位置变化量,并且如果其量对应于指示设备的按钮点击,则将相同的指示信号 生成相应的按钮点击。 因此,在不使用指示装置的按钮的情况下,在指示器以特定方向移动预定距离的情况下,可以执行与按钮单击相同的功能。 因此,用户能够更方便地使用指示装置,并且可以有利地减少或抑制点击触针的按钮来改变保持形式。
    • 8. 发明授权
    • Graphite/DSA assembled electrode for redox flow battery, method of manufacturing the same and redox flow battery including the same
    • 用于氧化还原液流电池的石墨/ DSA组装电极,其制造方法和包括其的氧化还原液流电池
    • US08518572B2
    • 2013-08-27
    • US12901834
    • 2010-10-11
    • Hyung Sun KimByung Won ChoYoung-Jun KimKi Jae Kim
    • Hyung Sun KimByung Won ChoYoung-Jun KimKi Jae Kim
    • H01M4/0407H01M4/044H01M4/583
    • H01M8/20H01M4/8657H01M4/8828H01M4/8896Y02E60/528
    • Disclosed is a graphite/DSA assembled electrode for a redox flow battery, obtained by assembling a graphite electrode made of micro-sized graphite and a DSA electrode using rolling thus improving cell performance including electrode durability, corrosion resistance, power density, energy efficiency and cycle properties. A method of manufacturing the graphite/DSA assembled electrode is also provided, which includes preparing a mixture composed of a graphite active material, a conductive material and a binder into a slurry using an alcohol, evaporating the alcohol from the slurry thus preparing a paste, thinly spreading the paste into an electrode sheet, and rolling the electrode sheet along with a DSA electrode thus obtaining the assembled electrode. A redox flow battery including the electrode thus obtained is also provided, which has increased electrode durability and corrosion resistance and enhanced power properties, energy efficiency and cycle performance.
    • 公开了一种用于氧化还原液流电池的石墨/ DSA组装电极,其通过组装由微尺寸石墨制成的石墨电极和使用滚动的DSA电极获得,从而改善电池性能,包括电极耐久性,耐腐蚀性,功率密度,能量效率和循环 属性。 还提供了一种制造石墨/ DSA组装电极的方法,其包括使用醇将由石墨活性材料,导电材料和粘合剂组成的混合物制成浆料,从浆液中蒸发醇,由此制备糊料, 将糊料稀释成电极片,并将电极片与DSA电极一起滚动,从而获得组装的电极。 还提供了包括如此获得的电极的氧化还原液流电池,其具有增加的电极耐久性和耐腐蚀性以及增强的功率特性,能量效率和循环性能。
    • 10. 发明申请
    • Biomolecule-Based Electronic Device
    • 基于生物分子的电子设备
    • US20100270543A1
    • 2010-10-28
    • US12809646
    • 2008-04-17
    • Jeong-Woo ChoiJun-Hong MinByung-Keun OhHyun-Hee KimYoung-Jun Kim
    • Jeong-Woo ChoiJun-Hong MinByung-Keun OhHyun-Hee KimYoung-Jun Kim
    • H01L51/30
    • G11C13/0014B82Y10/00G11C13/0009G11C13/0019H01L51/0093H01L51/0591
    • The present invention relates to a biomolecule-based electronic device in which the biomolecule with redox potential is directly immobilized on the substrate. The present invention enables to excellently exhibit the capability of a protein-based bio-memory device in which it is preferable to use the substrate on which cysteine-introduced recombinant proteins are effectively immobilized and a self-assembled layer (SAM) is fabricated. It becomes realized that a redox potential is regulated using intrinsic redox potential of the protein dependent on applied voltage. The present invention provides a novel operating method in which three potentials are applied throughout four steps. The present invention has some advantages of fabricating a protein layer in a convenient manner and inducing electron transfer by fundamental electrochemical or electronic operation. The method of this invention is considered as a new concept in the senses that intrinsic electron transfer mechanisms induced by natural-occurring biomolecules are used to develop an information storage device.
    • 本发明涉及一种基于生物分子的电子器件,其中具有氧化还原电位的生物分子直接固定在基底上。 本发明能够优异地表现出蛋白质生物记忆装置的能力,其中优选使用其上有效固定半胱氨酸导入的重组蛋白质的底物和制造自组装层(SAM)。 实现使用依赖于施加电压的蛋白质的固有氧化还原电位来调节氧化还原电位。 本发明提供一种新的操作方法,其中三个电位通过四个步骤施加。 本发明具有以方便的方式制造蛋白质层并通过基本电化学或电子操作诱导电子转移的一些优点。 本发明的方法被认为是用天然存在的生物分子诱导的固有电子传递机制来开发信息存储装置的感觉的新概念。