强氢氟酸溶液中阳极蚀刻硅的电化学方面

Proceedings. SOS/SOI Technology Workshop Pub Date : 1988-10-03 DOI:10.1109/SOI.1988.95424

J. L'ecuyer, J. Farr, J. Keen

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引用次数: 0

摘要

只提供摘要形式。采用动电位法和交流电法研究了硅在强氢氟酸溶液中的电化学反应。他们的目的是阐明多孔硅(FIPOS) SOI氧化技术中的阳极氧化过程。研究了许多p型(0.005 ~ 60 ω -cm)和n型(0.005 ~ 0.1 ω -cm)电阻率，其中大多数易于阳极氧化。对这种材料进行的电位动力学实验表明，阳极分支具有三个不同的区域。频散阻抗测量表明，偏置于阳极方向的非简并p型材料具有较大的表面态电容。电荷转移电阻(R/sub ct/)随阳极偏压的增大而减小。高掺杂的p和n型材料(>0.15 ω -cm)在剩余电位处具有最大的R/sub ct/。阳极氧化过程具有复杂的感应电阻和负电阻特征。

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Electrochemical aspects of anodically etched Si in strong hydrofluoric acid solutions

Summary form only given. The authors have investigated the electrochemistry of Si in strong hydrofluoric acid (HF) solutions using potentiodynamic and alternating-current techniques. Their aim was to elucidate the anodizing process in the oxidation of porous Si (FIPOS) SOI technology. A number of p-type (0.005 to 60 Omega -cm) and n-type (0.005 to 0.1 Omega -cm) resistivities have been studied, most of which anodize readily. Potentiodynamic experiments on such material show an anodic branch with three different regions. Frequency dispersion impedance measurements indicate that nondegenerate p-type material biased in the anodic direction has a large surface-state capacitance. The charge-transfer resistance (R/sub ct/) decreases with increasing anodic bias. Highly doped p- and n-type material (>0.15 Omega -cm) has a maximum R/sub ct/ at the rest potential. Complicated inductive and negative resistance features are seen in the anodizing regime.<>

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Proceedings. SOS/SOI Technology Workshop

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