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Issue
Korean Journal of Chemical Engineering,
Vol.12, No.2, 162-167, 1995
MECHANISM OF SILICON ETCHING IN HF-KMnO4-H2O SOLUTION
Nahm KS, Seo YH
The etching reaction of silicon in HF-KMnO4-H2O mixed solution has been studied under various experimental conditions. The etch rates were measured as a function of agitation speed, HF and KMnO4 concentrations, and etching temperature and time. A comprehensive mechanism for the silicon etching and insoluble solid-phase film (K2SiF6) formation has been proposed. The holes formed at silicon surface accelerated not only the etch rate of silicon but also the formation rate of K2SiF6. With the increase of hole concentration at lower HF concentrations the etch rates decreased because of the deposition of K2SiF6 on etched silicon surface. Under the condition of sufficiently high HF concentration, the rate increased with the increase of hole formation and the formation of holes at silicon surface was the rate limiting step of the silicon etching reaction in HF-KMnO4-H2O solution. High HF concentration enough for dissolving K2SiF6 was apparently essential to obtain high etch rate in the silicon etching reaction.
Keywords: Silicon Surface; Etch Rate; Etching Reaction Mechanism; HF-KMnO4-H2O solution; Insoluble Solid Phase K2SiF6; Dissolution; Intermediate Species; Oxidizing Agent; Redox Potential; Hole Formation
[References]
  1. Eddowes MJ, J. Electroanal. Chem., 280, 297, 1990
  2. Etman M, Neumann-Spallart M, Chazalviel JN, Ozanam F, J. Electroanal. Chem., 301, 259, 1991
  3. Gerischer H, Lubke M, Phys. Chem., 91, 394, 1978
  4. Huo DT, Yan MF, Wynn JD, Wilt DP, J. Electrochem. Soc., 136, 3094, 1989
  5. JCPDS (Joint Committee on Power Diffraction Standards), No. 7-217, 1977
  6. Kelly JJ, Noyyen PHL, Electrochim. Acta, 29(5), 589, 1984
  7. Kikyuama H, Miki N, Saka K, Takano J, Kawanabe I, Miyashita M, Ohmi T, IEEE Trans. Semicond. Manuf., 4(1), 26, 1991
  8. Matsumura M, Morrison SR, J. Electroanal. Chem., 144, 113, 1983
  9. Memming R, Schwandt G, Surf. Sci., 4, 109, 1966
  10. O'Commor JM, Dvorsky EF, Hier HS, Reif WP, J. Electrochem. Soc., 135, 190, 1988
  11. Ohmi T, Morita M, Teramoto A, Makihara K, Tseng KS, Appl. Phys. Lett., 60(17), 2126, 1992
  12. Schimmel DG, Elkind NT, J. Electrochem. Soc., 125, 152, 1978
  13. Seidel H, Csepregi L, Hewberger A, Baumgartel H, J. Electrochem. Soc., 137(11), 2512, 1990
  14. Seo YH, Yun MH, Nahm KS, Lee KB, J. Vac. Sci. Technol. B, 11(1), 70, 1993
  15. Seo YH, Nahm KS, Hahn YB, Kim CB, Korean J. Chem. Eng., 11(2), 89, 1994
  16. Theunissen MJJ, Apples JA, Verkuylen WHCG, J. Electrochem. Soc., 117, 959, 1970
  17. VandenMeerakker JEAM, VanVegchel JHC, J. Electrochem. Soc., 136(7), 1954, 1989
  18. Zhang XG, Collins SD, Smith RL, J. Electrochem. Soc., 136(5), 1561, 1989
[Cited By]
  1. Seo YH, Kim SJ, Kim KC, Oh JW, Nahm KS, Kim KJ, Lee HJ, HWAHAK KONGHAK, 35(4), 504, 1997
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