Method of manufacturing an instant pulse filter using anodic oxidation and instant pulse filter manufactured by said method
The instant pulse filter according to the present invention, which may cause a malfunction or a short life span of a semiconductor device, is made using an aluminum anodic oxidation, comprising-a first step for forming an aluminum thin film layer on an upper side of an insulator substrate; a second...
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| creator | Moon, Hak Beom Cho, Jin Hyung Bang, Suc Hyun Kim, Cheol Hwan Jang, Yoon Hyung |
| description | The instant pulse filter according to the present invention, which may cause a malfunction or a short life span of a semiconductor device, is made using an aluminum anodic oxidation, comprising-a first step for forming an aluminum thin film layer on an upper side of an insulator substrate; a second step for forming an aluminum oxide thin film layer having a pore by oxidizing the aluminum thin film layer by means of an anodic oxidation; a third step for depositing a metallic material on an upper side of the aluminum thin film layer for filling the pore; a fourth step for forming a nano rod in the interior of the aluminum oxide thin film layer by eliminating the metallic material deposited except in the pore; a fifth step for forming an internal electrode on an upper side of the aluminum oxide thin film layer having the nano rod; a sixth step for forming a protective film layer on an upper side of the same in order to protect the aluminum oxide thin film layer and the internal electrode from the external environment; and a seventh step for forming an external electrode on both sides of the substrate in which the protective film layer is formed. |
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Jang, Yoon Hyung ; Nextron Corporation</creatorcontrib><description>The instant pulse filter according to the present invention, which may cause a malfunction or a short life span of a semiconductor device, is made using an aluminum anodic oxidation, comprising-a first step for forming an aluminum thin film layer on an upper side of an insulator substrate; a second step for forming an aluminum oxide thin film layer having a pore by oxidizing the aluminum thin film layer by means of an anodic oxidation; a third step for depositing a metallic material on an upper side of the aluminum thin film layer for filling the pore; a fourth step for forming a nano rod in the interior of the aluminum oxide thin film layer by eliminating the metallic material deposited except in the pore; a fifth step for forming an internal electrode on an upper side of the aluminum oxide thin film layer having the nano rod; a sixth step for forming a protective film layer on an upper side of the same in order to protect the aluminum oxide thin film layer and the internal electrode from the external environment; 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a second step for forming an aluminum oxide thin film layer having a pore by oxidizing the aluminum thin film layer by means of an anodic oxidation; a third step for depositing a metallic material on an upper side of the aluminum thin film layer for filling the pore; a fourth step for forming a nano rod in the interior of the aluminum oxide thin film layer by eliminating the metallic material deposited except in the pore; a fifth step for forming an internal electrode on an upper side of the aluminum oxide thin film layer having the nano rod; a sixth step for forming a protective film layer on an upper side of the same in order to protect the aluminum oxide thin film layer and the internal electrode from the external environment; and a seventh step for forming an external electrode on both sides of the substrate in which the protective film layer is formed.</description><fulltext>true</fulltext><rsrctype>patent</rsrctype><creationdate>2012</creationdate><recordtype>patent</recordtype><sourceid>EFH</sourceid><recordid>eNqNjTsKAkEQRCcxEPUOfQHBL2osiomZubTbM7sNuz3LdA8oXt71AyYGRg-qHlV9dz96qyJBDNCg5ICF5cRSAgqwqKEYtLlWD4Fr8wmyvttIXEC8MqFxlC6g3_531RNcbqDIBM3rdOh6ATt19OHAwX532h7GWVs0L6bnMuETk_V0tlktlvM_lAeUmUjj</recordid><startdate>20120306</startdate><enddate>20120306</enddate><creator>Moon, Hak Beom</creator><creator>Cho, Jin Hyung</creator><creator>Bang, Suc Hyun</creator><creator>Kim, Cheol Hwan</creator><creator>Jang, Yoon Hyung</creator><scope>EFH</scope></search><sort><creationdate>20120306</creationdate><title>Method of manufacturing an instant pulse filter using anodic oxidation and instant pulse filter manufactured by said method</title><author>Moon, Hak Beom ; 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a second step for forming an aluminum oxide thin film layer having a pore by oxidizing the aluminum thin film layer by means of an anodic oxidation; a third step for depositing a metallic material on an upper side of the aluminum thin film layer for filling the pore; a fourth step for forming a nano rod in the interior of the aluminum oxide thin film layer by eliminating the metallic material deposited except in the pore; a fifth step for forming an internal electrode on an upper side of the aluminum oxide thin film layer having the nano rod; a sixth step for forming a protective film layer on an upper side of the same in order to protect the aluminum oxide thin film layer and the internal electrode from the external environment; and a seventh step for forming an external electrode on both sides of the substrate in which the protective film layer is formed.</abstract><oa>free_for_read</oa></addata></record> |
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| title | Method of manufacturing an instant pulse filter using anodic oxidation and instant pulse filter manufactured by said method |
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