Environmental Engineering Reference
In-Depth Information
75. T. S. Wu, K. X. Wang, G. D. Li, S. Y. Sun, J. Sun, and J. S. Chen. Montmorillonite supported Ag/
TiO
2
nanoparticles: An eficient visible-light bacteria photodegradation material.
ACS Appl.
Mater. Interfaces,
2:544-550, 2010.
76. G. Stanield, M. Lechevallier, and M. Snozzi.
Assessing Microbial Safety of Drinking Water
Improving Approaches and Methods
, Chap. 5. IWA Publishing: London, pp. 159-178, 2003.
77. I. Pinnau, and B. D. Freeman. Formation and modiication of polymeric membranes: Overview.
ACS Symposium Series
, vol. 744, American Chemical Society: Washington DC, pp. 1-22, 2000.
78. R. W. Baker.
Membrane Technology and Applications
. John Wiley & Sons: Chichester, 2004.
79. S. P. Nunes, and K. V. Peinemann.
Membrane Technology in the Chemical Industry
. Wiley-VCH:
Weinheim, 2001.
80. W. L. Chou, D. G. Yu, and M. C. Yang. The preparation and characterization of silver-loading
cellulose acetate hollow iber membrane for water treatment.
Polym. Adv. Technol.,
16:600-607,
2005.
81. P. Jain, and T. Pradeep. Potential of silver nanoparticle-coated polyurethane form as an antibac-
terial water ilter.
Biotechnol. Bioeng.,
90:59-63, 2005.
82. K. Zodrow, L. Brunet, S. Mahendra, D. Li, A. Zhang, Q. Li, and P. J. J. Alvarez. Polysulfone
ultrailtration membranes impregnated with silver nanoparticles show improved biofouling
resistance and virus removal.
Water Res.,
43:715-723, 2009.
83. D. Bjorge, N. Daels, S. D. Vrieze, P. Dejans, T. V. Camp, W. Audenaert, J. Hogie, P. Westbroek,
K. D. Clerck, and S. W. H. V. Hulle. Performance assessment of electrospun nanoibers for ilter
applications.
Desalination,
249:942-948, 2009.
84. R. Molinari, M. Mungari, E. Drioli, A. D. Paola, V. Loddo, L. Palmisano, and M. Schiavello.
Study on a photocatalytic membrane reactor forwater puriication.
Catal. Today,
55:71-78, 2000.
85. S. S. Madaeni, and N. Ghaemi. Characterization of self-cleaning RO membranes coated with
TiO
2
particles under UV irradiation.
J. Membr. Sci.,
303:221-233, 2007.
86. J. Mo, S. H. Son, J. Jegal, J. Kim, and Y. H. Lee. Preparation and characterization of polyamide
nanoiltration composite membranes with TiO
2
layers chemically connected to the membrane
surface.
J. Appl. Polym. Sci.,
105:1267-1274, 2007.
87. B. J. Hinds, N. Chopra, T. Rantell, R. Andrews, V. Gavalas, and L. G. Bachas. Aligned multi-
walled carbon nanotube membranesc.
Science,
303:62-65, 2004.
88. A. S. Brady-Estévez, M. H. Schnoor, C. D. Vecitis, N. B. Saleh, and M. Elimelech. Multiwalled
carbon nanotube ilter: Improving viral removal at low pressure.
Langmuir,
26:14975-14982,
2010.
89. A. S. Brady-Estévez, T. H. Nguyen, L. Gutierrez, and M. Elimelech. Impact of solution chemis-
try on viral removal by a single-walled carbon nanotube ilter.
Water Res.,
44:3773-3780, 2010.
90. T. A. Dankovich, and D. G. Gray. Bactericidal paper impregnated with silver nanoparticles for
point-of-use water treatment.
Environ. Sci. Technol.,
45:1992-1998, 2011.
91. R. Vyhnalkova, N. Mansur-Azzam, A. Eisenberg, and T. G. M. van de Ven. Ten million fold
reduction of live bacteria by bactericidal ilter paper.
Adv. Funct. Mater.,
22:4096-4100, 2012.
