微系统研究中的纳米物理:硅湿化学蚀刻中观察到的反向各向异性

MHS2003. Proceedings of 2003 International Symposium on Micromechatronics and Human Science (IEEE Cat. No.03TH8717) Pub Date : 2003-12-08 DOI:10.1109/MHS.2003.1249906

K. Sato, M. Shikida

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引用次数: 0

摘要

纳米物理引入原子模型加强了微系统研究。我们发现湿法化学刻蚀硅的各向异性不仅受单晶片表面取向的影响，还受Si[111]表面原子台阶的活跃性的影响。[111]表面原子台阶的活跃性是高度定向的，在KOH和TMAH两种腐蚀剂之间是反向定向的。两种蚀刻剂宏观蚀刻行为的差异可以用原子步骤的活跃性差异来解释。需要指出的是，计算表面原子悬空键数的传统静态模型已经不适用于讨论蚀刻过程中的各向异性，这是一种非常动态的现象。

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Nanometer physics in microsystem research: reversed anisotropy observed in wet chemical etching of silicon

Microsystem research is reinforced by nanometer physics introducing atomistic models. We found that anisotropy in wet chemical etching of silicon was dominated not only by the surface orientation of single crystal wafer but also by the activeness of atomic steps on Si [111] surface as well. The activeness of the atomic step on [111] surface was highly oriented, and was reversely oriented between two etchants of KOH and of TMAH. The differences in macroscopic etching behavior between the two etchants were explained by the difference in activeness of the atomic steps. It should be noted that conventional static model counting the number of dangling bond on a surface atom is no more applicable to discuss anisotropy in etching which is quite a dynamic phenomena.

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MHS2003. Proceedings of 2003 International Symposium on Micromechatronics and Human Science (IEEE Cat. No.03TH8717)

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