Environmental Engineering Reference
In-Depth Information
[188] wHO. Mercury in drinking-water, background document for development of wHO—guidelines for drinking-water Quality. geneva:
wHO; 2005. Report nr wHO/Sde/wSH/05.08/10.
[189] Balej J. Mercury. In: Bard JA, Parsons R, Jordan J, editors.
Standard Potentials in Aqueous Solution
. New york: Marcel dekker, Inc.;
1985. p 265-286.
[190] Aguado MA, Cervera-March S, giménez J. Continuous photocatalytic treatment of mercury(II) on titania powders. Kinetics and
catalyst activity. Chem eng Sci 1995;50:1561-1569.
[191] Chen Lx, Rajh T, wang Z, Thurnauer MC. exAfS studies of surface structures of TiO
2
nano-particles. J Phys Chem B
1997;101:10688-10697.
[192] de la fournière eM, Leyva Ag, gautier eA, Litter MI. Treatment of phenylmercury salts by heterogeneous photocatalysis over TiO
2
.
Chemosphere 2007;69:682-688.
[193] Hegyi J, Horváth O. Photocatalytic reduction of mercury(II) and simultaneous oxidative degradation of surfactants in titanium dioxide
suspensions. Prog Colloid Polym Sci 2004;125:10-16.
[194] Horváth O, Hegyi J. Light-induced reduction of heavy-metal ions on titanium dioxide dispersions. Prog Colloid Polym Sci
2002;117:211-216.
[195] Kaluza U, Boehm HP. Titanium dioxide catalyzed photooxidation of mercury. J Catal 1971;22:347-358.
[196] Khalil LB, Rophael Mw, Mourad we. The removal of the toxic Hg(II) salts from water by photocatalysis. Appl Catal B
2002;36:125-130.
[197] Lau Ld, Rodriguez R, Henery S, Manuel d, Schwendiman L. Photoreduction of mercuric salt solutions at high pH. environ Sci
Technol 1998;32:670-675.
[198] Miranda C, yáñez J, Contreras d, garcia R, Jardim wf, Mansilla Hd. Photocatalytic removal of methylmercury assisted by UV-A
irradiation. Appl Catal B 2009;90:115-119.
[199] Scott Rader w, Solujic L, Milosavljevic eB, Hendrix JL, Nelson JH. Photochemistry of aqueous solutions of dicyanomercury(II) and
potassium tetracyanomercurate(II). J Sol energy-T ASMe 1994;116:125-129.
[200] Serpone N, Ah-you yK, Tran TP, Harris R, Pelizzetti e, Hidaka H. AM1 simulated sunlight photoreduction and elimination of Hg(II)
and CH
3
Hg(II) chloride salts from aqueous suspensions of titanium dioxide. Sol energy 1987;39:491-498.
[201] Skubal LR, Meshkov NK. Reduction and removal of mercury from water using arginine-modified TiO
2
. J Photochem Photobiol A
2002;148:211-214.
[202] Tanaka K, Harada K, Murata S. Photocatalytic deposition of metal ions onto TiO
2
powder. Sol energy 1986;36:159-161.
[203] Tennakone K, Ketipearachchi US. Photocatalytic method for removal of mercury from contaminated water. Appl Catal B
1995;5:343-349.
[204] Tennakone K, Thaminimulle CTK, Senadeera S, Kumarasinghe AR. TiO
2
-catalysed oxidative photodegradation of mercurochrome: an
example of an organo-mercury compound. J Photochem Photobiol A 1993;70:193-195.
[205] Tennakone K, wickramanayake S. Cyclic photocleavage of water with the intermediate redox couple mercurous oxide/mercury. J Phys
Chem 1986;90:1219-1222.
[206] wang x, Pehkonen SO, Ray AK. Photocatalytic reduction of Hg(II) on two commercial TiO
2
catalysts. electrochim Acta
2004;49:1435-1444.
[207] wang ZH, Zhuang Qx. Photocatalytic reduction of pollutant Hg(II) on doped wO
3
dispersion. J Photochem Photobiol A
1993;75:105-111.
[208] López-Muñoz MJ, Aguado J, Arencibia A, Pascual R. Mercury removal from aqueous solutions of HgCl
2
by heterogeneous photoca-
talysis with TiO
2
. Appl Catal B 2011;104:220-228.
[209] Botta Sg, Rodríguez dJ, Leyva Ag, Litter MI. features of the transformation of HgII by heterogeneous photocatalysis over TiO
2
. Catal
Today 2002;76:247-258.
[210] Custo g, Litter MI, Rodríguez d, Vázquez C. Total reflection x-ray fluorescence trace mercury determination by trapping complexa-
tion: application in advanced oxidation technologies. Spectrochim Acta A 2006;61:1119-1123.
[211] Lenzi gg, fávero CVB, Colpini LMS, Bernabe H, Baesso ML, Specchia S, Santos OAA. Photocatalytic reduction of Hg(II) on TiO
2
and Ag/TiO
2
prepared by the sol-gel and impregnation methods. desalination 2011;270:241-247.
[212] Serpone N, Borgarello e, Pelizzetti e. Photoreduction and photodegradation of inorganic pollutants: I. Cyanides. In: Schiavello M,
editor.
Photocatalysis and Environment
. Amsterdam: Kluwer Academic Publishers; 1988. p 499-526.
[213] yin y, Liang J, yang L, wang Q. Vapour generation at a UV/TiO
2
photocatalysis reaction device for determination and speciation of
mercury by AfS and HPLC-AfS. J Anal At Spectrom 2007;22:330-334.
[214] Han C, Zheng C, wang J, Cheng g, Lv y, Hou x. Photo-induced cold vapor generation with low molecular weight alcohol, aldehyde,
or carboxylic acid for atomic fluorescence spectrometric determination of mercury. Anal Bioanal Chem 2007;388:825-830.
[215] Matusiewicz H, Stanisz e. evaluation of the catalyzed photo-cold vapour generation for determination of mercury by AAS. J Brazil
Chem Soc 2012;23:247-257.
