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1.发明授权公开(公告)号:US06872374B2
公开(公告)日:2005-03-29
申请号:US10267210
申请日:2002-10-09
申请人: In-Hyuck Song , Hai-Doo Kim , Jung-Yeul Yun
发明人: In-Hyuck Song , Hai-Doo Kim , Jung-Yeul Yun
CPC分类号: C04B35/58 , B01D39/2068 , C04B35/58092 , C04B35/64 , C04B2235/404 , C04B2235/428 , C04B2235/5427 , C04B2235/5436 , C04B2235/66 , C04B2235/775 , Y10T428/12021 , Y10T428/12042 , Y10T428/12826
摘要: A porous molybdenum disilicide-based material prepared by preheating a preform consisting of size-controlled molybdenum (Mo) powder and content-controlled silicon (Si) powder and igniting the preform to initiate self-propagating high temperature synthesis, and a method for preparing the same, are disclosed. The method comprises the steps of a) mixing molybdenum (Mo) powder and silicon (Si) powder in the stoichiometric ratio of 1:2; b) molding the mixed powder into a preform; c) preheating the preform under inert atmosphere; and d) igniting the top end of the preheated perform. The porous molybdenum disilicide-based material can control its pore size by appropriately controlling the size of molybdenum (Mo) powder, the content of silicon (Si) powder and preheating condition. Therefore, since the pore size gradient of the porous material is possible to form, the porous material can be used for filters with improved dirt-holding capacity.
摘要翻译: 通过预热由尺寸控制的钼(Mo)粉末和含量控制的硅(Si)粉末组成的预成型体并点燃预成型件以引发自蔓延的高温合成而制备的多孔二硅化钼基材料,以及制备 相同,被披露。 该方法包括以1:2的化学计量比混合钼(Mo)粉末和硅(Si)粉末的步骤; b)将混合粉末成型为预制件; c)在惰性气氛下预热预制件; 和d)点燃预热表演的顶端。 多孔二硅化钼基材料可以通过适当地控制钼(Mo)粉末的尺寸,硅(Si)粉末的含量和预热条件来控制其孔径。 因此,由于可以形成多孔材料的孔径梯度,所以多孔材料可以用于具有改善的防尘能力的过滤器。
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2.发明申请METHOD FOR MANUFACTURING ALUMINUM ELECTRODE USING SOLUTION PROCESS AND ALUMINUM ELECTRODE MANUFACTURES THEREBY 审中-公开使用溶液工艺制造铝电极的方法和铝电极制造方法公开(公告)号:US20130213690A1
公开(公告)日:2013-08-22
申请号:US13637235
申请日:2010-12-08
申请人: Hye Moon Lee , Dong-Won Lee , Jung-Yeul Yun
发明人: Hye Moon Lee , Dong-Won Lee , Jung-Yeul Yun
IPC分类号: B05D5/12
摘要: The present invention provides a method for manufacturing an aluminum electrode using a solution process and an aluminum electrode manufactured thereby. The manufacturing method includes the steps of: manufacturing an aluminum precursor solution for the solution processing using AlH3 as a basic material before forming aluminum; coating the aluminum precursor solution on a substrate through the solution process and drying the aluminum precursor solution; and forming a low work function aluminum electrode through a low-temperature baking process at the temperature of at most 150° C. The method for manufacturing the aluminum electrode according to the present invention improves a thermal defect of the electrode due to a high-temperature baking process, prevents excessive loss of raw materials, and can manufacture aluminum electrodes of various sizes with area ranging from small to large at relatively low costs and by a simple process under atmospheric pressure.
摘要翻译: 本发明提供一种使用溶液法制造铝电极的方法和由其制造的铝电极。 该制造方法包括以下步骤:在形成铝之前,使用AlH 3作为基础材料制造用于溶液处理的铝前体溶液; 通过溶液法将铝前体溶液涂覆在基底上,并干燥铝前体溶液; 并且通过在至多150℃的温度下的低温烘烤工艺形成低功函铝电极。根据本发明的铝电极的制造方法改善了由于高温而导致的电极的热缺陷 烘烤过程,防止原料过度损失,并且可以以相对较低的成本和通常在大气压下的简单工艺制造各种尺寸的小电极到铝的电极。
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公开(公告)号:US10046360B2
公开(公告)日:2018-08-14
申请号:US13637235
申请日:2010-12-08
申请人: Hye Moon Lee , Dong-Won Lee , Jung-Yeul Yun
发明人: Hye Moon Lee , Dong-Won Lee , Jung-Yeul Yun
摘要: The present invention provides a method for manufacturing an aluminum electrode using a solution process and an aluminum electrode manufactured thereby. The manufacturing method includes the steps of: manufacturing an aluminum precursor solution for the solution processing using AlH3 as a basic material before forming aluminum; coating the aluminum precursor solution on a substrate through the solution process and drying the aluminum precursor solution; and forming a low work function aluminum electrode through a low-temperature baking process at the temperature of at most 150° C. The method for manufacturing the aluminum electrode according to the present invention improves a thermal defect of the electrode due to a high-temperature baking process, prevents excessive loss of raw materials, and can manufacture aluminum electrodes of various sizes with area ranging from small to large at relatively low costs and by a simple process under atmospheric pressure.
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