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Solid-liquid electrochemical interface

M. R. Philpott, J. N. Glosli. Molecular dynamics simulation of interfacial electrochemical processes electric double layer screening. In G. Jerkiewicz, M. P. Soriaga, K. Uosaki, A. Wieckowski, eds. Solid Liquid Electrochemical Interfaces, Vol. 656 of ACS Symposium Series. Washington ACS, 1997, Chap. 2, pp. 13-30. [Pg.381]

S. Thomas, Y. E. Sung, A. Wieckowski, Solid-Liquid Electrochem. Interfaces ACS Symp. Ser. 1997, 656,126. [Pg.901]

H Shiku, Y Hara, T Takeda, T Matsue, I Uchida. Microfabrication and characterization of solid surfaces patterned with enzymes or antigen-antibodies by scanning electrochemical microscopy. In G Jerkiewiecz, MP Soriaga, K Uosaki, A Wieckowski, eds. Solid-Liquid Electrochemical Interfaces. Washington, DC ACS, 1997, pp 202-209. [Pg.517]

Shiku H, Hara Y, Takeda T, Matsue T, Uchida I. ACS Symp Ser 656, Solid-Liquid Electrochem Interfaces. 1997. [Pg.627]

Solid-Liquid Electrochemical Interfaces, ACS Symposium series 656, G.Jerkiewicz, M.P. Soriaga, K. Uosaki, A. Wieckowski (Eds.), 1996, pp. 171-188. [Pg.148]

Jerkiewicz G (1997) From electrochemistry to molecular-level research on the solid-liquid electrochemical interface. An overview. In Jerkiewicz G, Soriaga MP, UosaM K, Wieckowski A (eds) Solid-liquid electrochemical interfaces. American Chemical Society, Washington... [Pg.13]

Itaya, K., Batina, N., Kunitake, M. etal. (1997) In situ scanning tunneling microscopy of organic molecules adsorbed on iodine-modified Au( 111), Ag( 111), and Pt( 111) electrodes. Solid-Liquid Electrochemical Interfaces. ACS Symposium Series, 656, 171-188. [Pg.178]

One of the most fundamental problems in electrochemical surface science is distribution of the electric potential and the particles at the interface. The classical model which prevailed until about 1980 treated the electrode surface as a perfect and structureless conductor and did not take into account the surface electronic structure. The electrolyte was considered as an ensemble of hard, point ions immersed in a dielectric continuum. This approximation neglected the fine structure of the solvent molecules and the solute as well as their discrete interactions. In recent years, much progress has been made in providing a more realistic model of the solid-liquid electrochemical interface by applying quantum mechanical theories to model the metal... [Pg.7]

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