论文信息 - Porous silicon as a material in microsensor technology

Porous silicon as a material in microsensor technology

Abstract Silicon micromachining or localized insulation are technological steps in microsensor technology that can be achieved by using localized porous silicon formation. In this paper, the selectivity of porous silicon formation is studied in detail. It is shown that, because of the charge exchange mechanisms responsible for porous silicon formation, the local anodization potential under galvanostatic conditions strongly depends on the doping concentration of the silicon substrate, leading to a very high formation selectivity and allowing several dopant configurations in order to localize the formation of porous silicon. Some practical developments using porous silicon formation are presented.

[1] K. Barla,et al. The kinetics and mechanism of oxide layer formation from porous silicon formed on p‐Si substrates , 1987 .

[2] R. Memming,et al. Anodic dissolution of silicon in hydrofluoric acid solutions , 1966 .

[3] K. Barla,et al. Porosity and Pore Size Distributions of Porous Silicon Layers , 1987 .

[4] G. Bomchil,et al. Application of porous silicon formation selectivity to impurity profiling in p-type silicon substrates , 1989 .

[5] P. Searson,et al. The Anodic Dissolution of Silicon in HF Solutions , 1990 .

[6] A. Halimaoui,et al. Porous silicon: the material and its application to SOI technologies , 1988 .

[7] A. Bsiesy,et al. Charge Exchange Mechanism Responsible for P‐Type Silicon Dissolution during Porous Silicon Formation , 1989 .