Etching of Copper Films for Thin Film Transistor Liquid Crystal Display using Inductively Coupled Chlorine-Based Plasmas
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概要
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In this study, using inductively coupled Cl2/Ar plasmas (ICP), the effects of various process conditions such as source power, bias power, Cl2/Ar gas ratio, and ultraviolet (UV) ray were investigated to obtain high Cu etch rates without remaining any nonvolatile etch products. Due to the formation of nonvolatile copper chloride, copper film was not etched and, instead, a thick copper chloride residue was formed on the copper surface when Cl2/Ar ICP plasma was used. However, the residue could be removed and the copper film could be etched when high ICP source power was used with high intensity of ultraviolet rays and high bias power. Especially, when the ICP source power higher than 300 W and the bias power higher than 70 W were used, no UV irradiation was required to etch copper films, and which is more desirable for the etching of thin film transistor liquid crystal display (TFT-LCD) substrates. The maximum copper etch rate obtained was 300 nm/min with inductive power of 600 W, bias power of 75 W, and 0.5 of Cl2/Ar gas ratio at the pressure of 7 mTorr without applying UV.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2004-12-15
著者
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YEOM Geun
Department of Materials Science & Engineering, Sungkyunkwan University
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Jang Kyung
Department Of Materials Engineering Sungkyunkwan University
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Lee W
Korea Advanced Inst. Sci. And Technol. Taejon Kor
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Yeom Geun
Department Of Materials Engineering Sungkyunkwan University
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Lee Won
Intelligence And Precision Machinery Research Division It Machinery Research Center Korea Institute
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Kim Hyung
Goddard Earth Science And Technology Center (gest) University Of Maryland
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Kim Hyung
Intelligent Manufacturing Group Lg-prc Lg Electronics Co. Ltd.
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Yeom Geun
Department Of Advanced Materials Science And Engineering Sungkyunkwan University
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Jang Kyung
Department of Electrical Engineering, Kyungwon University, San 65 Bokjeong-dong, Sujeong-gu, Seongnam, Gyeonggi-do 461-701, Korea
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Yeom Geun
Department of Advanced Materials Engineering, Sungkyunkwan University, Suwon, Gyeonggi 440-746, Republic Korea
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