Environmental Engineering Reference
In-Depth Information
rEfErEncEs
[1] WHo. 2004. Household water treatment and safe storage. Available at
www.who.int/household_water/en/.
Accessed April 13, 2014.
[2] McIntyre RA. Common nano-materials and their use in real world applications. Sci Prog 2012;95:1-22.
[3] Malsh I. The importance of interdisciplinary approaches: the case of nanotechnology. IPTS Report. Seville, Spain: IPTS; 1997.
Report nr 13.
[4] Shannon MA. Science and technology for water purification in the coming decades. Nature 2008;452:301-310.
[5] Cygan RT, Brinker CJ. A molecular basis for advanced materials in water treatment. MRS Bull 2008;33:42-47.
[6] Savage N, Diallo MS. Nanomaterials and water purification: opportunities and challenges. J Nano Res 2005;7:331-342.
[7] Miller JE. Review of water resources and desalination technologies. Sandia National laboratories report. Albuquerque (NM): Sandia
National laboratories; 2003. Report nr SAND 2003-0800.
[8] Wagner l. Water desalination—tap into the liquid gold. Research report. london: Mora Associates; 2007.
[9] Fritzmann C, lowenberg J, Wintgens T, Melin T. State-of-the-art of reverse osmosis desalination. Desalination 2007;216:1-76.
[10] Benga G. Birth of water channel proteins-the aquaporins. Cell Biol Int 2003;27:701-709.
[11] Kaufman Y, Berman A, Freger V. Supported lipid bilayer membranes for water purification by reverse osmosis. langmuir 2010;26:
7388-7395.
[12] Agre P, Mathai JC, Smith Bl, Preston GM. Functional analyses of aquaporin water channel proteins. Methods Enzymol 1999;
294:550-572.
[13] Yakata K, Tani K, Fujiyoshi Y. Water permeability and characterization of aquaporin-11. J Struct Biol 2011;174:315-320.
[14] Chrispeels MJ, Agre P. Aquaporins: water channel proteins of plant and animal cells. Trends Biochem Sci 1994;19:421-425.
[15] li X, Wang R, Tang C, Vararattanavech A, Zhao Y, Torres J, Fane T. Preparation of supported lipid membranes for aquaporin Z incor-
poration. Colloids Surf B Biointerfaces 2012;94:333-340.
[16] Murata K, Mitsuoka K, Hirai T, Walz T, Agre P, Heymann JB, Engel A, Fujiyoshi Y. Structural determinants of water permeation through
aquaporin-1. Nature 2000;407:599-605.
[17] Bomholt J, Hélix-Nielsen C, Scharff-Poulsen P, Pedersen PA. Recombinant production of human aquaporin-1 to an exceptional high
membrane density in Saccharomyces cerevisiae. PloS one 2013;8:e56431.
[18] Douglas T, Ripoll DR. Calculated electrostatic gradients in recombinant human H-chain ferritin. Protein Sci 1998;7:1083-1091.
[19] Kim I, Hosein H, Strongin DR, Douglas T. Photochemical reactivity of ferritin for Cr (VI) reduction. Chem Mater 2002;14:4874-4879.
[20] Hosein HA, Strongin DR, Allen M, Douglas T. Iron and cobalt oxide and metallic nanoparticles prepared from ferritin. langmuir
2004;20:10283-10287.
[21] Kampschreur MJ, Temmink H, Kleerebezem R, Jetten MS, van loosdrecht MC. Nitrous oxide emission during wastewater treatment.
Water Res 2009;43:4093-4103.
[22] Martins AM, Pagilla K, Heijnen JJ, van loosdrecht MC. Filamentous bulking sludge—a critical review. Water Res 2004;38:793-817.
[23] Kim J, Grate JW. Single-enzyme nanoparticles armored by a nanometer-scale organic/inorganic network. Nano lett 2003;3:1219-1222.
[24] De Volder MF, Tawfick SH, Baughman RH, Hart AJ. Carbon nanotubes: present and future commercial applications. Science 2013;339:
535-539.
[25] Maggini l, Raquez JM, Marega R, Jensen Ahrens J, Pineux F, Meyer F, Dubois P, Bonifazi D. Magnetic poly(vinylpyridine)-coated
carbon nanotubes: an efficient supramolecular tool for wastewater purification. ChemSusChem 2013;6:367-373.
[26] Gethard K, Sae-Khow o, Mitra S. Water desalination using carbon-nanotube-enhanced membrane distillation. ACS Appl Mater
Interfaces 2011;3:110-114.
[27] Brooks AJ, lim HN, Kilduff JE. Adsorption uptake of synthetic organic chemicals by carbon nanotubes and activated carbons.
Nanotechnology 2012;23:294008.
[28] Rybak-Smith MJ, Sim RB. Complement activation by carbon nanotubes. Adv Drug Deliv Rev 2011;63:1031-1041.
[29] Chen X, Hong l, Xu Y, ong ZW. Ceramic pore channels with inducted carbon nanotubes for removing oil from water. ACS Appl Mater
Interfaces 2012;4:1909-1918.
[30] Saleh TA, Gupta VK. Column with CNT/magnesium oxide composite for lead (II) removal from water. Environ Sci Pollut Res Int
2012;19:1224-1228.
[31] lin YH. Nitrification/denitrification in swine wastewater using porous ceramic sticks with plastic rings as supporting media in two-stage
fixed-biofilm reactors. Water Sci Technol 2010;62:985-994.
[32] Brown J, Sobsey MD. Ceramic media amended with metal oxide for the capture of viruses in drinking water. Environ Technol 2009;
30:379-391.
[33] Najafpour MM, Rahimi F, Aro EM, lee CH, Allakhverdiev SI. Nano-sized manganese oxides as biomimetic catalysts for water oxidation
in artificial photosynthesis: a review. J R Soc Interface 2012;9:2383-2395.
