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ȯ°æģȭ¼º ±¤Ã˸Å(TiO2) ¹°Áú°³¹ß ¹× »ó¿ëÈ­ 1999.6 - 2001.11 ȯ°æºÎ
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´ëÇü¼¼¶ó¹Í ÇÏ´ÏÄÄ´ãü ¹× °ü·Ã ¾ÐÃ⼺Çü±â°è ±â¼ú °³¹ß 2001.12 - 2005.9 »ê¾÷ÀÚ¿øºÎ
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°Åâ È­°­¼® ÷´Ü ±â´É ¼®Àç(±¤Ã˸Å) °³¹ß 2006.2.27 - 2007.2.26 °Åⱺ
¾ÆÀÚ¾ÆÀÚ °³¼± 2006.3.6 - 2006.10.31 Áß¼Ò±â¾÷û
¾ÆÀÚ¾ÆÀÚ °³¼± 2007.3.26 - 2007.10.31 Áß¼Ò±â¾÷û
ÄÚÆñâ¼úÀ» ÀÌ¿ëÇÑ °í¹Ðµµ ÇÏ´ÏÄÄÇü ¿°°¡ Å»ÁúÃ˸Š°³¹ß 2006.9.1 - 2007.8.31 »ê¾÷ÀÚ¿øºÎ
 
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±¤Ã˸ŠÁ¦Ç° ÀÎÁõ¼­ 2005-04-08 NTS-01G (»ç)Çѱ¹±¤Ã˸ÅÇùȸ
½Å±â¼úÀÎÁ¤¼­(KT) 2005-06-14 »êȭƼźÀ» ÁÖ¿ø·á·Î ÇÑ ¼¼¶ó¹Í ´ãü
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Çѱ¹½Å±â¼ú ÀÎÁõ¼­(NT) 2005-06-02 ÅÖ½ºÅÙ´ãÁö¹°ÀÌ ÇÔÀ¯µÈ ¹è¿¬Å»Áú ¼±ÅÃÀû
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Method for manufacturing photocatalytic anatase titanium dioxide powder   USA   µî·Ï
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Ƽź»ê¹Ù·ý ºÐ¸»ÀÇ Á¦Á¶¹æ¹ý   ´ëÇѹα¹   µî·Ï
Method for manufacturing photocatalytic Titaium dioxide powder   Áß±¹   µî·Ï
ÀÌ»êÈ­ ŸÀÌŸ´½ ÀÔÀÚÀÇ Á¦Á¶¹æ¹ý ¹× À̸¦ ÀÌ¿ëÇÑ ÀÌ»êÈ­ ŸÀÌŸ´½ ¹Ú¸·ÀÇ Á¦Á¶ ¹æ¹ý   ´ëÇѹα¹   µî·Ï
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±¹³»ÇмúÁö
1. ¡°¾ÐÃ⼺Çü¿ë ¼ÒÁöÀÇ °¡¼Ò¼º°ú ¿¬½ÅÀ²ÀÇ Á¤·®È­¡± Çѱ¹¼¼¶ó¹ÍÇÐȸÁö, 39[11], 1048-1054 (2002)
2. ¡°TiO2 ¹Ú¸· ÄÚÆà Àü±Øü¸¦ ÀÌ¿ëÇÑ ±¤Ã˸Å-ÀüÇØ ¹ÝÀÀ±â¿¡¼­ 4CP ºÐÇØ ¿¬±¸¡± È­ÇаøÇÐ, 41[2], 160-166 (2003)
3. ¡°TiO2 ±¤Ã˸Š³» ºñ¾ç·ÐÀû »êÈ­¹° Á¸ÀçÀÇ 4CP ºÐÇØÀ²¿¡ ´ëÇÑ ¿µÇ⡱, È­ÇаøÇÐ, 41[2], 152-159 (2003)
4. ¡°¼ö¿­ÇÕ¼º¹ý¿¡ ÀÇÇÑ BaTiO3 ºÐ¸»ÇÕ¼º ¹× ¼Ò°áüÀÇ Á¦Á¶¡±, Çѱ¹¼¼¶ó¹ÍÇÐȸ, 40[6], 577-582, (2003)
5. ¡°³ª³ë±¸Á¶ TiO2 ¿ë»çÄÚÆÃÀÇ ¹Ì¼¼Á¶Á÷ Á¦¾î °øÁ¤±â¼ú °³¹ß°ú ±¤Ã˸ŠƯ¼ºÆò°¡ - Part I : TiO2 ÄÚÆÃ-,
´ëÇÑ¿ëÁ¢ÇÐȸÁö, 21[4], 409-415 (2003)
6. ¡°³ª³ë±¸Á¶ TiO2 ¿ë»çÄÚÆÃÀÇ ¹Ì¼¼Á¶Á÷ Á¦¾î °øÁ¤±â¼ú °³¹ß°ú ±¤Ã˸ŠƯ¼ºÆò°¡ - Part II : TiO2-WO3 ÄÚÆÃ-,
´ëÇÑ¿ëÁ¢ÇÐȸÁö, 21[4], 416-426 (2003)
7. ¡°TiO2 ¼ö¿ë»ó¿¡¼­ÀÇ ±¤Ã˸ŹÝÀÀ¿¡ ´ëÇÑ pH, ¾çÀÌ¿Â, À½ÀÌ¿Â, ¿ëÁ¸»ê¼Ò, Àڿܼ± ¹× À¯±â¹°ÀÇ ¿µÇ⡱, È­ÇаøÇÐ,
42[6], 762-770, (2004)
8. ¡°WO3/TiO2¿Í V2O5/TiO2 ºÐ¸»ÀÇ ÇÕ¼º ¹× NOX Á¦°Å SCR Ư¼º¡±, Çѱ¹°áÁ¤¼ºÀåÇÐȸÁö,
16[5], 216-221 (2006)
±¹¿ÜÇмúÁö
1. ¡°«Ê«ÎÐüâúªòéĪ·ª¿ü»ÌÑãæáÈî§îöÚ¦Ðêåö¡±
êÅÊÊ ¡¸«Þ«Æ«ê«¢«ë«¤«ó«Æ«°«ì-«·«ç«ó¡¹, 15[4], 46-50, 2002
2. ¡°Nonequiaxial Grain Growth and Polytype Transformation of Sintered ¥á-Silicon Carbide and ¥â-Silicon Carbide¡±
Journal of the American Ceramic Society, 86[12], 2222-2224 (2003)
3. ¡°A relation between the non-stoichiometry and hydroxyl radical generated at photocatalytic TiO2 on 4CP decomposition¡±
Journal of Photochemistry and Phtobiology A : Chemistry 159, 301-310 (2003)
4. ¡°A study on characteristics of an electrolytic-photocatalytic reactor using an anode coated with TiO2¡±
Journal of Photochemistry and Phtobiology A : Chemistry 161, 11-20 (2003)
5. ¡°Fabrication and Mechanical propertied of Silicon Nitride Laminate Composites¡±
J. Ceramic Processing Research 6[3], 263-265 (2005)
6. ¡°A Fracture Model and prediction of Mechanical Behavior in Si3N4 Laminate Composites¡±
J. Ceramic Processing Research 6[3], 266-270 (2005)
7. ¡°Fabrication and Mechanical Properties of Fibrous Silicon Nitride Monolithic Ceramics¡±
J. Ceramic Processing Research 6[4], 332-325 (2005)
8. ¡°Model of Fracture Toughness in Fibrous Si3N4 Monolithic Ceramics¡±
J. Ceramic Processing Research 6[4], 325-331 (2005)
9. ¡°Fracture Toughness of Fibrous Si3N4 Monolithic Ceramics¡±
Key Engineering Materials Vols. 317-318 pp. 297-300 (2006. 8)
10. ¡°Prediction of Fracture Toughness in Fibrous Si3N4 Monolithic Ceramics¡±
Key Engineering Materials Vols. 317-318 pp. 301-304 (2006. 8)
11. ¡°Extrusion Forming of Cordierite Honeycomb with Hexagonal Open Cells¡±
Key Engineering Materials Vols. 336-338 pp. 1035-1037 (2007)
12. ¡°Factors Influencing the Photocatalytic Efficiency in the Experimental for the TiO2 Powder Slurry Systems¡±
Key Engineering Materials Vols. 336-338 pp. 1968-1971 (2007)
13. ¡°Characterization and De-NOx activity of binary V2O5/TiO2 and WO3/TiO2, and ternary V2O5-WO3/TiO2 SCR catalysts¡±
J. Ceramic Processing Research 8[3], 203-207 (2007)