ABSTRACT
Because of space limitations the questions of edl are briefly summarized. For a more detailed description, the reader can consult the following reviews.[2-4,11,17,36,62,101-103]
The characteristics of particular metal oxide/electrolyte solution systems also were not discussed. Further information and references can be found in recent reviews.[2,3,11,36,103-108]
1. Boehm, H.P. Acidic and basic properties of hydroxylated metal oxide surfaces. Discuss. Faraday Soc. 1971, 52, 264-275. 2. Lyklema, J. Fundamentals of Interface and Colloid Science; Academic Press: London, 1995; 3.2-3.232. 3. Lyklema, J. Fundamental the Electrical Double Layers in Colloidal Systems. In Colloidal Dispersions; Goodwin, J.W., Ed.; Special
Publication No. 43, Royal Soc. Chem.: London, 1981; 47-70. 4. Wiese, G.R.; James, R.O.; Yates, D.E.; Healy, T.W. Electrochemistry of the Colloid-Water Interface. In Electrochemistry of Colloid-
Water Interface; Bockris, J.O’M., Ed.; Int. Review Sci. Phys. Chem. Series 2, Butterworths: London, 1976; Vol. 6, 53-102. 5. Kitahara, A.; Watanabe, A. Electrical Phenomena at Interfaces; Surfactant Science Series, Marcel Dekker Inc.: New York, 1984; 15. 6. Ohshima, H.; Furusawa, K. Electrical Phenomena at Interfaces, 2nd Ed.; Surfactant Science Series, Marcel Dekker Inc.: New York,
1998; 76. 7. Connor, P.A.; Dobson, K.D.; McQuillan, J.A. Infrared spectroscopy of the TiO2aqueous solution interface. Langmuir 1999, 15, 2402-
2408. 8. Rayss, J.; Sudolski, G.; Janusz, W.; Galgan, A.M. Optical aspects of Na+ ions adsorption on sol-gel porous films used in optical fibre
sensors. J. Colloid Interface Sci. 2002, 250, 168-174. 9. Janusz, W.; Sworska, A.; Szczypa, J. The structure of the electrical double layer at the titanium dioxide/ethanol solutions interface.
