Environmental Engineering Reference
In-Depth Information
Schrank, S. G., H. J. Tose, R. F. P. M. Moreira (2002) Simultaneous photocatalytic Cr(VI) reduction and
dye oxidation in a TiO
2
slurry reactor.
Journal of Photochemistry and Photobiology A: Chemistry
,
147, 71-76.
Senogles, P. J., J. A. Scott, G. Shaw, H. Stratton (2001) Photocatalytic degradation of the Cyanotoxin,
Cylindrospermopsin using titanium dioxide and UV irradiation.
Water Research
, 35(5),
1245-1255.
Senthilnathan, J., L. Philip (2010a) Investigation on degradation of methyl parathion using visible
light in the presence of Cr+3 and N-doped TiO
2
.
Advanced Materials Research
, (93-94), 280-283.
Senthilnathan, J., L. Philip (2010b) Removal of mixed pesticides from drinking water system using
surfactant assisted nano TiO
2
.
Water Air and Soil Pollution
, 210(1-4), 143-154.
Senthilnathan, J., L. Philip (2010c) Photocatalytic degradation of lindane under UV and visible light
using N-doped TiO
2
.
Chemical Engineering Journal
, 161(1-2), 83-92.
Senthilnathan, J., L. Philip (2011) Photodegradation of methyl parathion and dichorvos from drink-
ing water using (1-1) N-doped TiO
2
under solar radiation.
Journal of Chemical Engineering
, 172,
2-3, 678-688.
Senthilnathan, J., L. Philip (2012) Elimination of pesticides and their formulation products from
drinking water using thin ilm continuous photoreactor under solar radiation.
Solar Energy
Journal
, 86(9), 2735-2745.
Shifu, C., C. Gengyu (2005) Photocatalytic degradation of organophosphorus pesticides using loat-
ing photocatalyst TiO
2
:SiO
2
/beads by sunlight.
Solar Energy
, 79, 1-9.
Sommer, B., A. Mariño, Y. Solarte, M. L. Salas, C. Dierolf, C. Valiente, D. Mora, R. Rechsteiner,
P. Setter, W. Wirojanagud, H. Ajarmeh, A. Al-Hassan, M. Wegelin (1997) SODIS—an emerging
water treatment process.
Journal of Water Supply Research Technology Aqua
, 46, 127-137.
Subramanian, V., E. Wolf, P. Kamat (2003) Green emission to probe photoinduced charge events
in ZnO-Au nanoparticles, charge distribution and fermi-level equilibration.
Journal of Physical
Chemistry B
, 107, 7479-7485.
Subramanian, V., E. Wolf, P. Kamat (2004) Catalysis with TiO
2
/gold nano composites: Effect of metal
particle size on the fermi level equilibration.
Journal American Chemical Society
, 126, 4943-4950.
Sunada, K., T. Watanabe, K. Hashimoto (2003) Bactericidal activity of copper-deposited TiO
2
thin ilm
under weak UV light illumination.
Environmental Science Technology
, 37(20), 4785-4789.
Takeuchi, M., K. Tsujimaru, K. Sakamoto, M. Matsuoka, H. Yamashita, M. Anpo (2003) Effect of Pt
loading on the photocatalytic reactivity of titanium oxide thin ilms prepared by ion engineer-
ing techniques.
Research on Chemical Intermediates
, 29(6), 619-629.
Thacker, P. D. (2005) Pharmaceutical data elude researchers.
Environmental Science and Technology
, 39,
193A-194A.
Vidal, A. (1998) Developments in solar photocatalysis for water puriication.
Chemosphere
, 36(12),
2593-2606.
Watts, R. J., S. Kong, M. P. Orr, G. C. Miller, B. E. Henry (1994) Photocatalytic inactivation of coliform
bacteria and viruses in secondary wastewater efluent.
Water Research
, 29, 95-100.
Wong, C. C., W. Chu (2003) The hydrogen peroxide-assisted photocatalytic degradation of alachlor
in TiO
2
suspensions.
Environmental Science and Technology
, 37, 2310-2316.
Xiaodan, Y., W. Qingyin, J. Shicheng, G. Yihang (2006) Nanoscale ZnS/TiO
2
composites: Preparation,
characterization, and visible-light photocatalytic activity.
Materials Characterization
, 57, 333-341.
Zaleska, A., J. Hupkaa, M. Wiergowski, M. Biziuk (2000) Photocatalytic degradation of lindane,
p,p'-DDT and methoxychlor in an aqueous environment.
Journal of Photochemistry and
Photobiology A: Chemistry
, 135(2-3), 213-220.
Zhao, M. Y., S. F. Chen, Y. W. Tao (1995) Photocatalytic degradation of organophosphorus pesticides
using thin ilms of TiO
2
.
Journal of Chemical Technology and Biotechnology
, 64, 339-344.
