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    • 2. 发明授权
    • Fabrication method for quantum dot sensitized solar cell using supercritical fluid or subcritical fluid and quantum dot sensitized solar cell prepared thereby
    • 使用由此制备的超临界流体或亚临界流体和量子点敏化太阳能电池的量子点敏化太阳能电池的制造方法
    • US08703526B2
    • 2014-04-22
    • US12969246
    • 2010-12-15
    • Jaehoon KimByoung Koun MinJae-Duck KimJong Min ParkWonho Jang
    • Jaehoon KimByoung Koun MinJae-Duck KimJong Min ParkWonho Jang
    • H01L31/0224H01L31/0352H01L31/18
    • H01G9/2031Y02E10/542
    • A method of fabricating a transparent electrode for use in a quantum dot sensitized solar cell, and a quantum dot sensitized solar cell fabricated according to the method are provided. According to the fabrication method, (S1) quantum dot precursor is introduced into a high pressure storage vessel and a quantum dot precursor is dissolved using subcritical fluid or supercritical fluid; (S2) the quantum dot precursor fluid prepared at (S1) is transported to contact with a conductive thin layer substrate comprised of a metal oxide placed in a high pressure reaction vessel, thereby causing the quantum dot precursor to be adsorbed in the metal oxide thin layer; (S3) non-adsorbed quantum dot precursor fluid of (S2) is transported and thus recovered to the high pressure storage vessel together with the subcritical fluid or supercritical fluid; and (S4) the subcritical fluid or supercritical fluid is removed from the high pressure reaction vessel, and the quantum dot precursor, adsorbed at (S2), is reacted with a second element which constitutes the quantum dot or a compound comprising the second element.
    • 提供一种制造用于量子点敏化太阳能电池的透明电极的方法和根据该方法制造的量子点敏化太阳能电池。 根据制造方法,将(S1)量子点前体引入高压储存容器中,并使用亚临界流体或超临界流体溶解量子点前体; (S2)将在(S1)中制备的量子点前体流体输送到与置于高压反应容器中的金属氧化物构成的导电薄层基板接触,由此使量子点前体被吸附在金属氧化物薄膜 层; (S2)的非吸附量子点前体流体(S3)被输送并与亚临界流体或超临界流体一起回收到高压储存容器中; 和(S4)从高压反应容器中除去亚临界流体或超临界流体,并将吸附在(S2)的量子点前体与构成量子点的第二元素或包含第二元素的化合物反应。
    • 7. 发明申请
    • APPARATUS AND METHOD FOR CONTROLLING CONNECTION OF BATTERY PACKS
    • 用于控制电池组连接的装置和方法
    • US20120268070A1
    • 2012-10-25
    • US13533481
    • 2012-06-26
    • Jong-Min PARKWoo-Jung KIMEung-Yong KIM
    • Jong-Min PARKWoo-Jung KIMEung-Yong KIM
    • H02J7/00
    • H01M10/441H01M10/46H01M10/482H02J7/0019H02J7/0024Y02T10/7055
    • Disclosed is an apparatus for controlling the connection of a plurality of battery packs including a switching unit provided on a charge/discharge path of each battery pack to selectively open and close the charge/discharge path, a first control unit provided for each battery pack to determine the state of charge (SOC) of each battery pack and control the opening/closing of the switching unit, and a second control unit to receive the determined SOC of each battery pack from the first control unit, group battery packs having a predetermined range of SOCs, select a group containing a largest number of battery packs, connect the battery packs of the selected group in parallel, charge or discharge the parallel-connected battery packs so that a difference in SOC between the parallel-connected battery packs and the non-connected battery pack falls within a predetermined range, and connect the non-connected battery pack thereto in parallel.
    • 公开了一种用于控制多个电池组的连接的装置,包括设置在每个电池组的充电/放电路径上的开关单元,以选择性地打开和关闭充电/放电路径,为每个电池组提供的第一控制单元 确定每个电池组的充电状态(SOC)并控制开关单元的打开/关闭;以及第二控制单元,用于从第一控制单元接收每个电池组的确定的SOC,组合具有预定范围的电池组 的SOC,选择一个包含最大数量的电池组的组,并联连接所选组的电池组,对并联电池组进行充电或放电,使并联电池组和非电池组之间的SOC差异 连接的电池组落在预定范围内,并且并联连接未连接的电池组。