CrossRef 4. Boening DW, Chew CM: A critical review: general toxicity and environmental fate of three aqueous cyanide ions and associated ligands. Water Air Soil Pollut 1999, 109:67–79.CrossRef 5. Beebe RR, Young CA, Tidwell LG, Anderson CG (Eds): Process considerations before and after failure of the Omai tailings dam. In Cyanide In Social, Industrial and Economic Aspects. Warrendale, Pensylvania: PF-01367338 ic50 TMS; 2001:3–10. 6. Rowley WJ, Otto FD: Ozonation of cyanide with emphasis on gold mill wastewaters. Can
J Chem 1980, 58:646–653.CrossRef 7. Gurol MD, Bremen WM: Kinetics and mechanism of ozonation of free cyanide species in water. Environ Sci IWR-1 solubility dmso Technol 1985, 19:804–809.CrossRef 8. Pak D, Chang W: Oxidation of aqueous cyanide solution using hydrogen peroxide in the presence of heterogeneous catalyst. Environ Toxicol 1997, 18:557–561. 9. Sharma VK, Rivera W, Smith JO, Brien BO’: Ferrate(VI) oxidation of aqueous cyanide. Environ Sci Technol 1998, 32:2608–2613.CrossRef 10. Sharma VK, Burnett CR, Yngard RA, Cabelli D: Iron(VI) and iron(V) oxidation of copper(I) cyanide. Environ Sci Technol 2005, 39:3849–3854.CrossRef 11. Bahnemann D: Photocatalytic water treatment: solar energy applications.
Sol Energy 2004, 77:445–459.CrossRef 12. Chiang K, Amal R, Tran T: Photocatalytic oxidation of cyanide: kinetic and mechanistic studies. J Mol Catal A Chem 2003, 193:285–297.CrossRef Screening Library 13. Liu H, Imanishi A, Nakato Y: Mechanisms for photooxidation reactions of water and organic compounds on carbon-doped titanium dioxide, as studied by photocurrent measurements. J Phys Chem C 2007, 111:8603–8610.CrossRef 14. Peral J, Domenech X: Photocatalytic cyanide oxidation from aqueous copper cyanide solutions over TiO 2 and ZnO. J Chem Tech Biotechnol 1992, 53:93–96.CrossRef 15. Aguado J, Grieken RV, Lopez-Munoz MJ, Marugan J: Removal of cyanides
in wastewater by supported TiO 2 -based photocatalysis. Catal Today 2002, 75:95–102.CrossRef 16. Dabrowski B, Zaleska A, Janczarek M, Hupka J, Miller JD: Photo-oxidation of dissolved cyanide using TiO 2 catalyst. J Photochem Photobiol A Chem 2002, 151:201–205.CrossRef 17. Kobayashi H, Liu YL, Yamashita Y, Ivanco J, Imai S, Takahashi M: Methods of observation and elimination of semiconductor defect states. Sol Energy 2006, 80:645–652.CrossRef 18. Rao AN, Sivasankar Afatinib manufacturer B, Sadasivam V: Kinetic study on the photocatalytic degradation of salicylic acid using ZnO catalyst. J Haz Mat 2009, 166:1357–1361.CrossRef 19. Zhao L, Lu PF, Yu ZY, Guo XT, Shen Y, Ye H, Yuan GF, Zhang L: The electronic and magnetic properties of (Mn, N)-codoped ZnO from first principles. J Appl Phys 2010, 108:113924–113930.CrossRef 20. Xu SJ, Liu W, Li MFL: Direct determination of free exciton binding energy from phonon-assisted luminescence spectra in GaN epilayers. Appl Phys Lett 2002, 81:16–18.CrossRef 21. Liu J, Zhao Y, Jiang YJ, Lee CM, Liu YL, Siu GG: Identification of zinc and oxygen vacancy states in nonpolar ZnO single crystal using polarized photoluminescence.