Alexander GB (1957) The effect of particle size on the solubility of amorphous silica in water. J Phys Chem 61:1563–1564
Alexander GB, Heston WM, Iler RK (1954) The solubility of amorphous silica in water. J Phys Chem 58:453–455
Evangelou VP (1995) Potential microencapsulation of pyrite by artificial inducement of ferric phosphate coatings. J. Environ. Quality 24:535–542
Evangelou VP (2001) Pyrite microencapsulation technologies: principles and potential field application. Ecol Eng 17:165–178
Faure G (1991) Principles and applications of inorganic geochemistry. Macmillan, New York
Gazea B, Adam K, Kontopoulos A (1996) A review of passive systems for the treatment of acid mine drainage. Miner Eng 9:23–42
Gissinger PB, Alnot M, Ehrhardt JJ, Behra P (1998) Surface oxidation of pyrite as a function of pH. Environ SciTechnol 32:2839–2845
Iler RK (1979) Chemistry of silica. Wiley-Interscience, New York
Marshall WL (1980) Amorphous silica solubilities—I. Behavior in aqueous sodium nitrate solution; 25–300 °C, 0–6 molal. Geochim Cosmochim Acta 44:907–913
Matlock MM, Howerton BS, Atwood DA (2003) Covalent coating of coal refuse to inhibit leaching. Adv Environ Res 7:495–501
Mine Safety Department (MSD), Ministry of International Trade, Industry, Japan (1956) Koen oyobi kouhaisui. Japan Mining Industry Association, Tokyo
Nishiyama T, Hodo T, Yamada M, Bessho M (2003) Preventing the escape of harmful elements using silica coating. J Jpn Soc Eng Geol 43:390–395
Sasowsky ID, Foos A, Miller CM (2000) Lithic controls on the removal of iron and remediation of acidic mine drainage. Water Res 34:2742–2746
Singer PC, Stumm W (1970) Acidic mine drainage: the rate-determining step. Sci 167:1121–1123
Vandiviere MM, Evangelou VP (1998) Comparative testing between conventional and microencapsulation approaches in controlling pyrite oxidation. J Geochem Explor 64:161–176
Zhang YL, Evangelou VP (1998) Formation of ferric hydroxide–silica coatings on pyrite and its oxidation behavior. Soil Sci 163:53–62