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MEMS压印模板制作的刻蚀机理及尺寸控制方法 被引量:2

Etching Mechanism and Pattern Size Controlling Method in Imprint Template Fabrication for MEMS
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摘要 为了提高基于湿法刻蚀压印模板制作工艺中刻蚀图形尺寸的控制精度,研究了玻璃湿法刻蚀的反应动力学过程,得到刻蚀剂中(HF)2为决定反应速率的主要活性成分的结论;结合实验建立了合理的刻蚀速率模型.采用不同氢氟酸浓度的刻蚀液进行了实验,实测刻蚀速率与理论计算数值的对比结果表明模型预测精度达到96%以上.基于该模型刻蚀深度确定刻蚀时间进行了压印模板制作的实验,制作了图形特征尺寸为15μm、刻蚀深度为8μm的压印模板.对模板图形的测量结果表明,通过该模型预测的尺寸误差仅为0.05μm. To improve the accuracy of etched pattern size controlling in imprint template fabrication process based on glass wet etching, the reaction kinetic mechanism of the soda-lime glass dissolution process in aqueous HF-based solution was studied and the dominant active component (HF) 2 in etching agent was identified. Based on the combination of mechanism analysis and etching experiments, a reasonable theoretical model of etching rate was established. Experiments in etchants with various concentrations of hydrofluoric acid were carried out and the comparison of the etching rate data between experiments and the theoretical model calculation showed that the prediction accuracy was higher than 96%. Imprint template fabrication experiments in which the etching time was determined according to the etching rate model were performed and the template with a pattern feature size of 15 μm and a depth of 8μm was demonstrated. The etched pattern size was measured with a profiler, which indicated that the etched size prediction error based on the established etching rate model was only 0.05 μm.
作者 王权岱 段玉岗 卢秉恒 杨连发
机构地区 西安交通大学机械制造系统工程国家重点实验室 桂林电子科技大学机电工程学院
出处 《纳米技术与精密工程》 EI CAS CSCD 2009年第1期90-94,共5页 Nanotechnology and Precision Engineering
基金 国家自然科学基金资助项目(50305026) 陕西省自然科学基金资助项目(2007E239) 广西制造系统与先进制造技术重点实验室开放基金项目(桂科能07109008-025K)
关键词 压印模板 湿法刻蚀 刻蚀速率模型 尺寸控制 imprint template wet etching etching rate modeling pattern size control
分类号 TN305.7 [电子电信—物理电子学]
  • 相关文献

参考文献2

  • 1Y. Mourzina,A. Steffen,A. Offenh?usser. The evaporated metal masks for chemical glass etching for BioMEMS[J] 2005,Microsystem Technologies(2-3):135~140
  • 2G. A. C. M. Spierings,J. Dijk. The dissolution of Na2O-MgO-CaO-SiO2 glass in aqueous HF solutions[J] 1987,Journal of Materials Science(5):1869~1874

同被引文献13

  • 1林忠华,胡国清,刘文艳,张慧杰.微机电系统的发展及其应用[J].纳米技术与精密工程,2004,2(2):117-123. 被引量:27
  • 2龚永林.压印图形的PCB制造技术[J].印制电路信息,2006(11):28-29. 被引量:2
  • 3丁玉成,刘红忠,卢秉恒,李涤尘.下一代光刻技术——压印光刻[J].机械工程学报,2007,43(3):1-7. 被引量:13
  • 4王一平.工程电动力学[M].西安:西安电子科技大学出版社,2007.
  • 5Jiang Weitao, Ding Yucheng, Liu Hongzhong, et al. Two- step curing method for demoulding in UV nanoimprint lithography [ J ]. Microelectronic Engineering, 2008, 85 ( 2 ) : 458-464.
  • 6Liu Hongzhong, Jiang Weitao, Ding Yucheng, et al. A novel loading and demoulding process control in UV nanoimprint lithography [ J ]. Microelectronic Engineering, 2009, 86(1) : 4-9.
  • 7Schaffer E, Thurn-Albrecht T, Russell T P, et al. Electrically induced structure formation and pattern transfer [ J ]. Nature, 2000, 403: 874-877.
  • 8Deshpande P, Chou S Y. Lithographically induced self-assembly of microstructures with a liquid-filled gap between the mask and polymer surface [J]. J Vac Sci Technol B, 2001, 19(6) : 2741-2744.
  • 9Zhuang L. Controlled Self-Assembly in Homopolymer and Diblock Copolymer [ D ]. Elizabeth: Princeton University, 2002 : 38-41.
  • 10Harkema S. Capillary Instabilities in Thin Polymer Films Mechanism of Structure Formation and Pattern Replication [ D ]. Groningen : Department of Polymer Physics, University of Groningen, 2005 : 78-81.

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纳米技术与精密工程
2009年 第1期

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