Environmental Engineering Reference
In-Depth Information
[47] Gole JL, stout JD, Burda C, Lou YB, Chen xB. Highly Efficient formation of Visible Light Tunable TiO
2-x
N
x
Photocatalysts and their
Transformation at the Nanoscale. J. Phys. Chem. B 2004;108:1230-1240.
[48] Kisch H, Macyk W. Visible-light Photocatalysis by Modified Titania. ChemPhysChem 2002;3:399-400.
[49] Torres GR, Lindgren T, Lu J, Granqvist CG, Lindquist sE. Photoelectrochemical study of nitrogen-doped titanium dioxide for water
oxidation. J. Phys. Chem. B 2004;108:5995-6003.
[50] Li Q, Wu P, xie R, shang JK. Enhanced photocatalytic disinfection of microorganisms by transition metal ion modification of nitrogen
doped titanium oxide. J. Mater. Res. 2010;25:167-176.
[51] a) Wu P, xie R, shang JK. Enhanced visible-light photocatalytic disinfection of bacteria spores by palladium-modified nitrogen-doped
titanium oxide. J. Am. Ceram. soc. 2008;91:2957-2962.
b) Wu P, xie R, Imlay K, shang JK. Visible light induced bactericidal activity of titanium dioxide co-doped with nitrogen and silver.
Environ. sci. Technol. 2010;44:6992-6997.
[52] sun C, Li Q, Gao s, Cao L, shang JK. Enhanced photocatalytic disinfection of
Escherichia coli
bacteria by silver modification of
nitrogen-doped titanium oxide nanoparticle photocatalyst under visible-light illumination. J. Am. Ceram. soc. 2010; 93:3880-3885.
[53] Ubonchonlakate K, sikong L, saito f. Photocatalytic disinfection of
P. aeruginosa
bacterial Ag-doped TiO
2
film. Procedia Eng.
2012;32:656-662.
[54] Nair RG, Roy J, samdarshi sK, Mukherjee AK. Mixed phase V doped titania shows high photoactivity for disinfection of
Escherichia
coli
and detoxification of phenol. sol Energ. Mat. sol. C. 2012;105:103-108.
[55] Mo AC, xu W, xian s, Li Y, Bai s. Antibacterial activity of silver-hydroxypatite/titania nanocomposite coating on titanium against oral
bacteria. Key Eng. Mat. 2007;330/332:455-458.
[56] sheel, D.W.; Brook, L.A.; Ditta, I.B.; Evans, P.; foster, H.A.; steele, A.; Yates, H.M. Biocidal silver and silver/titania composite films
grown by chemical vapor deposition.
Int. J. Photoenergy
, 2008,
article ID 168185
, 11p.
[57] Chen WJ, Tsai PJ, Chen YC. functional fe
3
O
4
/TiO
2
core/shell magnetic nanoparticles as photokilling agents for pathogenic bacteria.
small 2008;4:485-491.
[58] Lu JW, Li fB, Guo T, Lin LW, Hou Mf, Liu Tx. TiO
2
photocatalytic antifungal technique for crop diseases control. J. Environ. sci.-China
2006;18:397-401.
[59] Erkam A, Bakir U, Karakas G. Photocatalytic microbial inactivation over Pd doped snO
2
and TiO
2
thin films. J. Photochem. Photobiol.
A 2006;184:313-321.
[60] Rodriguez-Gonzalez V, Alfaro sO, Torrez-Martinez LM, Cho sH, Lee sW. silver-TiO
2
nanocomposites: synthesis and harmful algae
bloom UV photoelimination. Appl. Catal. B-Environ. 2010;98:229-234.
[61] foster HA, Ditta IB, Varghese s, steele A. Photocatalytic disinfection using titanium dioxide: spectrum and mechanism of antimicrobial
activity. Appl. Microbiol. Biot. 2011;90:1847-1868.
[62] Reginfo JA, Pulgarin C. Photocatalytic activity of N, s co-doped and N-doped commercial anatase TiO
2
powders towards phenol
oxidation and E. coli inactivation under simulated solar light irradiation. sol. Energy 2010;84:37-43.
[63] Li D, Ohashi N, Hishita s, Kolodiazhnyi T, Haneda H. Origin of visible-light-driven photocatalysis: A comparative study on N/f doped
and N-f codoped TiO
2
powders by means of experimental characterizations and theoretical calculations. J. solid. state Chem.
2005;178:3293-3302.
[64] Huang DG, Liao sJ, Liu JM, Dang J, Petrik L. Preparation of visible-light responsive N-f codoped TiO
2
photocatalyst by a sol-
gel-solvothermal method. J. Photoch. Photobio. A 2006;184:282-288.
[65] xie Y, Li Y, Zhao x. Low temperature preparation and visible light induced catalytic activity of anatase N-f codoped TiO
2
. J. Mol. Catal.
A-Chem. 2007;277:119-126.
[66] Choi H, Antoniou MG, Pelaez M, de la Cruz AA, shoemaker JA, Dionysiou DD. Mesoporous Nitrogen-doped TiO
2
for the Photocatalytic
Destruction of the Cyanobacterial Toxin Microcystin-LR under Visible Light. Environ. sci. Technolo. 2007;41:7530-7535.
[67] Wong Ms, Chu WC, sun Ds, Huang Hs, Chen JH, Tsai PJ, Lin NT, Yu Ms, Hsu sf, Wang sL, Chang HH. Visible-light-induced
bactericidal activity of a nitrogen-doped titanium photocatalyst against human pathogens. Appl. Environ. Microb. 2006;72:611-6116.
[68] Liu Y, Li J, Qiu x, Burda C. Bactericidal activity of nitrogen-doped metal oxide nanocatalysts and the influence of bacterial extracellular
polymeric substances (EPs). J. Photoch. Photobio. A 2007;190:94-100.
[69] Wu P, xie R, Imlay JA, shang JK. Visible light induced photocatalytic inactivation of bacteria by composite photocatalysts of palladium
oxide and nitrogen-doped titanium oxide. Appl. Catal. B 2009;88:576-581.
[70] Balasubramanian G, Dionysiou DD, suidan MT, Baudin I, Laine JM. Evaluating the activities of immobilized TiO
2
powder films for the
photocatalytic degradation of organic contaminants in water. Appl. Catal. B-Environ. 2004;47:73-84.
[71] Gelover s, Mondragon P, Jimenez A. Titanium dioxide sol-gel deposited over glass and its applications as photocatalyst for water decon-
tamination. J. Photoch. Photobio. A 2004;165:241-246.
[72] Guillard C, Disdier J, Monnet C, Dussaud J, Malato s, Blanco J, Maldonado MI, Herrmann JM. solar efficiency of a new deposited
titania catalyst: chlorophenol, pesticide and dye removal applications. Appl. Catal. B-Environ. 2003;46:319-332.
