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    촉매를 이용한 반도체 공정 SF6 처리에 관한 연구 = Original Article : Catalytic Decomposition of SF6 from Semiconductor Manufacturing Process

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    https://www.riss.kr/link?id=A99769717

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    다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

    Sulfur hexa-fluoride has been used as a etching gas in semiconductor industry. From the globally environmental issues, it is urgent to control the emissions of this significant greenhouse gas. The main objective of this experimental investigation was to find the effective catalyst for SF6 decomposition. The precursor catalyst of hexa-aluminate was prepared to investigate the catalytic activity and stability. The precursor catalyst of hexa-aluminate was modified with Ni to enhance the catalytic activities and stability. The catalytic activity for SF6 decomposition increased by the addition of Ni and maximized at 6wt% addition of Ni. The addition of 6wt% Ni in precursor catalyst of hexa-aluminate improved the resistant to the HF and reduced the crystallization and phase transition of catalyst.
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    Sulfur hexa-fluoride has been used as a etching gas in semiconductor industry. From the globally environmental issues, it is urgent to control the emissions of this significant greenhouse gas. The main objective of this experimental investigation was ...

    Sulfur hexa-fluoride has been used as a etching gas in semiconductor industry. From the globally environmental issues, it is urgent to control the emissions of this significant greenhouse gas. The main objective of this experimental investigation was to find the effective catalyst for SF6 decomposition. The precursor catalyst of hexa-aluminate was prepared to investigate the catalytic activity and stability. The precursor catalyst of hexa-aluminate was modified with Ni to enhance the catalytic activities and stability. The catalytic activity for SF6 decomposition increased by the addition of Ni and maximized at 6wt% addition of Ni. The addition of 6wt% Ni in precursor catalyst of hexa-aluminate improved the resistant to the HF and reduced the crystallization and phase transition of catalyst.

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    참고문헌 (Reference)

    1 이태진, "γ-Al2O3 촉매상에서 가수분해와 산화반응에 의한 SF6 촉매분해 특성" 한국청정기술학회 15 (15): 273-279, 2009

    2 Park, Y. K., "Waste gas treatment system for semiconductor process" Korea research institute of chemical technology 13-19, 2004

    3 Xu, X. F., "The modification and stability of γ-Al2O3 based catalysts for hydrolytic decomposition of CF4" 266 : 131-138, 2007

    4 Jeon, H. J., "The catalyst outline, 4th ed." Hanrimwom Inc 471-475, 2002

    5 Baek, Y. S., "Synthesis of barium hexaaluminate by sol-gel method" 5 (5): 142-151, 1995

    6 Kanno, S., "Method for the decomposition treatment of fluorine containing compounds, catalysts and apparatus for the decomposition treatment"

    7 Kanno, S., "Method and apparatus for disposing of fluorine containing compound by decomposition"

    8 Kashiwagi, D., "Metal phosphate catalysts effective for degradation of sulfur hexafluoride" 48 (48): 632-640, 2009

    9 El-Bahy, Z. M., "Hydrolytic decomposition of CF4 over alumina-based binary metal oxide catalysts : high catalytic activity of gallia-alumina catalyst" 90 : 283-290, 2004

    10 El-Bahy, Z. M., "Hydrolysis of CF4 over alumina-based binary metal oxide catalysts" 40 : 81-91, 2003

    1 이태진, "γ-Al2O3 촉매상에서 가수분해와 산화반응에 의한 SF6 촉매분해 특성" 한국청정기술학회 15 (15): 273-279, 2009

    2 Park, Y. K., "Waste gas treatment system for semiconductor process" Korea research institute of chemical technology 13-19, 2004

    3 Xu, X. F., "The modification and stability of γ-Al2O3 based catalysts for hydrolytic decomposition of CF4" 266 : 131-138, 2007

    4 Jeon, H. J., "The catalyst outline, 4th ed." Hanrimwom Inc 471-475, 2002

    5 Baek, Y. S., "Synthesis of barium hexaaluminate by sol-gel method" 5 (5): 142-151, 1995

    6 Kanno, S., "Method for the decomposition treatment of fluorine containing compounds, catalysts and apparatus for the decomposition treatment"

    7 Kanno, S., "Method and apparatus for disposing of fluorine containing compound by decomposition"

    8 Kashiwagi, D., "Metal phosphate catalysts effective for degradation of sulfur hexafluoride" 48 (48): 632-640, 2009

    9 El-Bahy, Z. M., "Hydrolytic decomposition of CF4 over alumina-based binary metal oxide catalysts : high catalytic activity of gallia-alumina catalyst" 90 : 283-290, 2004

    10 El-Bahy, Z. M., "Hydrolysis of CF4 over alumina-based binary metal oxide catalysts" 40 : 81-91, 2003

    11 Yoo, D. H., "Forecasting future greenhouse gas emissions in the industrial process sectors" Korea energy economics institute 12-, 2004

    12 Brown, R. S., "Catalytic technology for PFC emissions control" 44 (44): 189-200, 2001

    13 Kashiwagi, D., "Catalytic activity of rare earth phosphates for SF6 decomposition and promotion effects of rare earths added into AlPO4" 332 : 136-144, 2009

    14 Park, Y. K., "Catalyst for decomposition of perfluoro compound inwaste gas and method of decomposition with thereof"

    15 Tsai, W. T., "A review of uses, environmental hazards and recovery/recycle technologies of perfluorocarbons(PFCs)emissions from the semiconductor manufacturing processes" 15 : 65-75, 2002

    16 손정민, "1-butanol과 ethylene glycol을 이용하여 합성한 Sr hexaaluminate의 물리적 특성 및 메탄 연소 반응에 관한 연구" 한국화학공학회 45 (45): 209-214, 2007

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