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    • 1. 发明申请
    • Preparing an alloy catalyst using conductive polymer coating
    • 使用导电聚合物涂层制备合金催化剂
    • US20120135137A1
    • 2012-05-31
    • US13109407
    • 2011-05-17
    • Bum Wook RohIn Chul HwangHan Sung KimHyung-Suk Oh
    • Bum Wook RohIn Chul HwangHan Sung KimHyung-Suk Oh
    • B05D5/12B01J31/12H01M4/92B05D3/02B05D7/14B05C13/02B05C9/14B01J23/42B01J21/18B82Y30/00
    • H01M4/921B82Y30/00B82Y40/00H01M4/926Y02E60/50
    • Techniques herein prepare an alloy catalyst using a protective conductive polymer coating. More particularly, an alloy catalyst is prepared by: preparing a platinum catalyst supported on carbon; coating the surface of the platinum catalyst with a conductive polymer; supporting a transition metal salt on the coated catalyst; and heat treating the catalyst on which the transition metal salt is supported. Also, an alloy catalyst may be prepared by: preparing a platinum-transition metal catalyst supported on carbon; coating the surface of the platinum-transition metal catalyst with a conductive polymer; and heat treating the coated catalyst. Accordingly an alloy catalyst with superior dispersity can be prepared by increasing the degree of alloying of the catalyst through heat treatment while preventing the increase of catalyst particle size through carbonization of the conductive polymer. The prepared catalyst may be useful, for example, for a fuel cell electrode.
    • 本文的技术使用保护性导电聚合物涂层制备合金催化剂。 更具体地说,合金催化剂通过以下步骤制备:制备负载在碳上的铂催化剂; 用导电聚合物涂覆铂催化剂的表面; 在涂覆的催化剂上负载过渡金属盐; 并对其上负载有过渡金属盐的催化剂进行热处理。 此外,合金催化剂可以通过以下方法制备:制备负载在碳上的铂 - 过渡金属催化剂; 用导电聚合物涂覆铂 - 过渡金属催化剂的表面; 并对涂覆的催化剂进行热处理。 因此,通过加热催化剂的合金化程度,通过导电性聚合物的碳化来防止催化剂粒径的增加,可以制备出具有优异分散性的合金催化剂。 所制备的催化剂可用于例如燃料电池电极。
    • 4. 发明申请
    • Image forming apparatus and a method for processing printing data
    • 图像形成装置和处理打印数据的方法
    • US20070086046A1
    • 2007-04-19
    • US11508321
    • 2006-08-23
    • Han-sung Kim
    • Han-sung Kim
    • G06K15/00
    • G06K15/02G06F21/608G06F2221/2101G06F2221/2117G06K15/002G06K15/1809G06K15/1817
    • An image forming apparatus for receiving and processing printing data includes a data transceiver unit that receives printing data including recipient information from an external client personal computer (PC), a detection unit that detects the recipient information from the printing data, a storage unit, and a control unit that stores the printing data in a memory that corresponds to the recipient information. When a user corresponding to the recipient information is registered, the control unit stores the printing data in a normal memory allocated to the registered user and, when the user is unregistered, the control unit stores the printing data in a temporary memory. The control unit notifies at least one client PC corresponding to the recipient information of the receipt of the printing data through the data transceiver unit. Accordingly, it is possible to accurately transmit the printing data to the intended recipients.
    • 一种用于接收和处理打印数据的图像形成装置包括数据收发单元,其从外部客户端个人计算机(PC)接收包括接收者信息的打印数据,从打印数据检测接收者信息的检测单元,存储单元和 控制单元,其将打印数据存储在与接收者信息相对应的存储器中。 当登记了与接收方信息对应的用户时,控制单元将打印数据存储在分配给注册用户的正常存储器中,并且当用户未注册时,控制单元将打印数据存储在临时存储器中。 控制单元通过数据收发单元通知对应于接收到打印数据的接收者信息的至少一个客户端PC。 因此,可以将打印数据精确地发送到预期的接收者。
    • 5. 发明授权
    • Apparatus and method for managing power of a battery
    • 用于管理电池的电力的装置和方法
    • US06765369B2
    • 2004-07-20
    • US10231051
    • 2002-08-30
    • Dong-ho RheeHan-sung Kim
    • Dong-ho RheeHan-sung Kim
    • H01M1044
    • H02J9/005H02J7/0063H02J2007/0067
    • Provided are an apparatus and method for managing power, and more particularly, an apparatus and method for stably managing power by comparing a predetermined reference voltage level with a battery voltage level. The provided method for managing power includes (a) detecting the battery voltage level, which supplies power to a system after a predetermined period from the system being powered off, and comparing the battery voltage level with a reference voltage level, and (b) deciding the operation of the system in correspondence to the result of the comparison. According to the provided method, when the battery voltage level of the system is between the power off voltage level and the reference voltage level, the system is operated in the sleep mode using a minimum amount of power. When the battery voltage level is above the reference voltage level, the system is operated normally when a power switch is turned on. Consequently, the power and system are stably managed.
    • 提供了一种用于管理电力的装置和方法,更具体地,涉及一种通过将预定参考电压电平与电池电压电平进行比较来稳定地管理电力的装置和方法。 所提供的用于管理电力的方法包括:(a)检测在从断电系统经过预定时间段之后向系统供电并且将电池电压电平与参考电压电平进行比较的电池电压电平,以及(b) 系统的运行对应于比较结果。 根据所提供的方法,当系统的电池电压电平处于断电电压电平和参考电压电平之间时,系统以最小的功率运行在睡眠模式。 当电池电压电平高于参考电压电平时,当电源开关打开时,系统正常工作。 因此,电力和系统得到稳定的管理。
    • 8. 发明授权
    • Preparing an alloy catalyst using conductive polymer coating
    • 使用导电聚合物涂层制备合金催化剂
    • US09276270B2
    • 2016-03-01
    • US13109407
    • 2011-05-17
    • Bum Wook RohIn Chul HwangHan Sung KimHyung-Suk Oh
    • Bum Wook RohIn Chul HwangHan Sung KimHyung-Suk Oh
    • B05D5/12H01M4/92B82Y30/00B82Y40/00
    • H01M4/921B82Y30/00B82Y40/00H01M4/926Y02E60/50
    • Techniques herein prepare an alloy catalyst using a protective conductive polymer coating. More particularly, an alloy catalyst is prepared by: preparing a platinum catalyst supported on carbon; coating the surface of the platinum catalyst with a conductive polymer; supporting a transition metal salt on the coated catalyst; and heat treating the catalyst on which the transition metal salt is supported. Also, an alloy catalyst may be prepared by: preparing a platinum-transition metal catalyst supported on carbon; coating the surface of the platinum-transition metal catalyst with a conductive polymer; and heat treating the coated catalyst. Accordingly an alloy catalyst with superior dispersity can be prepared by increasing the degree of alloying of the catalyst through heat treatment while preventing the increase of catalyst particle size through carbonization of the conductive polymer. The prepared catalyst may be useful, for example, for a fuel cell electrode.
    • 本文的技术使用保护性导电聚合物涂层制备合金催化剂。 更具体地说,合金催化剂通过以下步骤制备:制备负载在碳上的铂催化剂; 用导电聚合物涂覆铂催化剂的表面; 在涂覆的催化剂上负载过渡金属盐; 并对其上负载有过渡金属盐的催化剂进行热处理。 此外,合金催化剂可以通过以下方法制备:制备负载在碳上的铂 - 过渡金属催化剂; 用导电聚合物涂覆铂 - 过渡金属催化剂的表面; 并对涂覆的催化剂进行热处理。 因此,通过加热催化剂的合金化程度,通过导电性聚合物的碳化来防止催化剂粒径的增加,可以制备出具有优异分散性的合金催化剂。 所制备的催化剂可用于例如燃料电池电极。