Fabrication of Quartz Microcapillary Electrophoresis Chips Using Plasma Etching.
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- Ujiie Takekazu
- Department of Electrical and Electronics Engineering, Toyo University, 2100 Kujirai, Kawagoe 350-8585, Japan
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- Kikuchi Toshiaki
- Department of Electrical and Electronics Engineering, Toyo University, 2100 Kujirai, Kawagoe 350-8585, Japan
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- Ichiki Takanori
- Department of Electrical and Electronics Engineering, Toyo University, 2100 Kujirai, Kawagoe 350-8585, Japan
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- Horiike Yasuhiro
- Department of Materials Science, School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan
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抄録
In order to fabricate microcapillary electrophoresis (μ-CE) chips, high-rate quartz etching with high selectivity over the mask was studied using both C4F8/Ar and C4F8/SF6 high-density plasmas with Cr hard masks. Vertical quartz etching with high etch rate selectivity against the mask was attained using an 85%C4F8/15%SF6 inductively coupled plasma, where the quartz etch rate was 530 nm/min and the etch rate selectivity against the mask measured at the Cr top surface and the facet were 80 and 27, respectively. Deep quartz etching technology has been demonstrated by fabricating vertical trench features with 50 μm depth and 20 μm width, i.e., the aspect ratio of 2.5, which cannot be attained by means of the wet chemical etching technology conventionally used. Subsequently, fundamental performances of μ-CE chips fabricated using plasma etching were examined and compared with those fabricated by conventional wet etching. No significant difference was found in the separation performances between dry-etched and wet-etched chips, while the rectangular cross-sectional feature with high aspect ratio, which has become attainable for the first time by deep plasma etching technology, has been shown to be the most suitable for the optical absorption detection commonly used in capillary electrophoresis and liquid chromatography and for the image observation necessary for particle and/or cell electrophoresis. Furthermore, the advantage of pattern transfer with high resolution and high fidelity has been demonstrated by fabricating functional microstructures such as a slit or a filter within a capillary.
収録刊行物
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- Japanese Journal of Applied Physics
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Japanese Journal of Applied Physics 39 (6A), 3677-3682, 2000
The Japan Society of Applied Physics
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詳細情報 詳細情報について
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- CRID
- 1390282681229242880
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- NII論文ID
- 210000047390
- 30021835640
- 110004077002
- 130004527402
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- NII書誌ID
- AA10457675
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- COI
- 1:CAS:528:DC%2BD3cXltVSitr4%3D
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- ISSN
- 13474065
- 00214922
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- NDL書誌ID
- 5383405
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- 本文言語コード
- en
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- データソース種別
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- JaLC
- NDL
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- 使用不可