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reportEnvironment
6.7 References and Literature

1. Afonso M. and Yanez R. (2001) Nanofiltration of wastewater from the fishmeal industry. DESALINATION 139(1-3).
2. Al-Sofi M. (2001) Seawater desalination - SWCC experience and vision. Desalination 135.
3. Anandan S., Kumar P. S., Pugazhenthiran N., Madhavan J., and Maruthamuthu P. (2008) Effect of loaded silver nanoparticles on TiO2 for photocatalytic degradation of Acid Red 88. SOLAR ENERGY MATERIALS AND SOLAR CELLS 92(8).
4. Andrew B. (2001) Sulphate removal by nanofiltration. Filtr Sep 38.
5. Ballesteros E., Gallego M., and Valcarcel M. (2000) Analytical potential of fullerene as adsorbent for organic and organometallic compounds from aqueous solutions Journal of Chromatography A 866(1-2).
6. Brandhuber P. and Amy G. (1998) Alternative methods for membrane filtration of arsenic from drinking water Desalination 117(1-3).
7. Byrne J. A., Davidson A., Dunlop P. S. M., and Eggins B. R. (2002) Water treatment using nano-crystalline TiO2 electrodes. JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY 148(1-3).
8. Byrne J. A., Eggins B. R., Brown N. M. D., McKinney B., and Rouse M. (1998) Immobilisation of TiO2 powder for the treatment of polluted water. APPLIED CATALYSIS B-ENVIRONMENTAL 17(1-2), 25-36.
9. Chang M., Shu H., Hsieh W., and Wang M. (2005) Using nanoscale zero-valent iron for the remediation of polycyclic aromatic hydrocarbons contaminated soil JOURNAL OF THE AIR & WASTE MANAGEMENT ASSOCIATION 55.
10. Chang M.-C., Shu H.-Y., Hsieh W.-P., and Wang M.-C. (2007) Remediation of soil contaminated with pyrene using ground nanoscale zero-valent iron. JOURNAL OF THE AIR & WASTE MANAGEMENT ASSOCIATION 57(2).
11. Coleman H., Routledge E., Sumpter J., Eggins B., and Byrne J. (2004) Rapid loss of estrogenicity of steroid estrogens by UVA photolysis and photocatalysis over an immobilised titanium dioxide catalyst WATER RESEARCH 38(14-15).
12. Comparelli R., Cozzoli P. D., Curri M. L., Agostiano A., Mascolo G., and Lovecchio G. (2004) Photocatalytic degradation of methyl-red by immobilised nanoparticles of TiO2 and ZnO. WATER SCIENCE AND TECHNOLOGY 49(4).
13. Deliyanni E. A., Peleka E. N., and Matis K. A. (2007) Removal of zinc ion from water by sorption onto iron-based nanoadsorbent. JOURNAL OF HAZARDOUS MATERIALS 141(1).
14. Di Z.-C., Ding J., Peng X.-J., Li Y.-H., Luan Z.-K., and Liang J. (2006) Chromium adsorption by aligned carbon nanotubes supported ceria nanoparticles. Chemosphere 62.
15. Dries J., Bastiaens L., Springael D., Agathos S., and Diels L. (2005) Combined removal of chlorinated ethenes and heavy metals by zerovalent iron in batch and continuous flow column systems ENVIRONMENTAL SCIENCE & TECHNOLOGY 39(21).
16. Dunlop P. S. M., McMurray T. A., Hamilton J. W. J., and Byrne J. A. (2008) Photocatalytic inactivation of Clostridium perfringens spores on TiO2 electrodes. JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY 196(1).
17. Dunlop P., Byrne J., Manga N., and Eggins B. (2002) The photocatalytic removal of bacterial pollutants from drinking water JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY 148(1-3).
18. Elliott D. and Zhang W. (2001) Field assessment of nanoscale biometallic particles for groundwater treatment ENVIRONMENTAL SCIENCE & TECHNOLOGY 35(24).
19. Fino D., Cauda E., Mescia D., Saracco G., and Specchia V. (2007) LiCoO2 catalyst for diesel particulate abatement. Catalysis Today 119, 257-261.
20. Gandini D, Mahe E, Michaud PA, Haenni W, Perret A, and C C. (2000) Oxidation of carboxylic acids at boron-doped diamond electrodes for wastewater treatment JOURNAL OF APPLIED ELECTROCHEMISTRY 30(12).
21. Gandini D., Mahe E., Michaud P. A., Haenni W., Perret A., and Comninellis C. (2000) Oxidation of carboxylic acids at boron-doped diamond electrodes for wastewater treatment JOURNAL OF APPLIED ELECTROCHEMISTRY 30(12).
22. Garcia T., Solsona B., and Taylor S. H. (2005) Nano-crystalline ceria catalysts for the abatement of polycyclic aromatic hydrocarbons. Catalysis Letters 105(3-4).
23. Gotovac S., Hattori Y., Noguchi D., Miyamoto J.-i., Kanamaru M., Utsumi S., Kanoh H., and Kaneko K. (2006) Phenanthrene adsorption from solution on single wall carbon nanotubes. JOURNAL OF PHYSICAL CHEMISTRY B 110(33).
24. Hafiane A., Lemordant D., and Dhahbi M. (2000) Removal of hexavalent chromium by nanofiltration DESALINATION 130(3).
25. Hassan A. M., Farooque A., Jamaluddin A., Al-Amoudi A., Al-Sofi M., Al-Rubaian A., Kither N., Al-Tisan I., and Rowaili A. (2000) A demonstration plant based on the new NF-SWRO process. Desalination 131.
26. Hassan A., Al-Sofi M., Al-Amoudi A., Jamaluddin A., Farooque A., Rowaili A., Dalvi A., Kither N., Mustafa G., and Al-Tisan I. (1998) A new approach to membrane and thermal seawater desalination processes using nanofiltration membranes (Part 1). DESALINATION 118(1-3).
27. Hilal N., Al-Zouvi H., Darwish N. A., Mohammad A. W., and Arabi M. A. (2004) A comprehensive review of nanofiltration membranes: Treatment, pretreatment, modelling and atomic force microscopy. Desalination 170.
28. Hu J., Chen G., and Lo I. M. C. (2005a) Removal and recovery of Cr(VI) from wastewater by maghemite nanoparticles. WATER RESEARCH 39.
29. Hu J., Chen G., and Lo I. M. C. (2006) Selective Removal of Heavy Metals from Industrial Wastewater Using Maghemite Nanoparticle: Performance and Mechanisms. Journal of environmental engineering.
30. Hu J., Lo I. M. C., and Chen G. (2004) Removal of Cr(VI) by magnetite nanoparticle. WATER SCIENCE AND TECHNOLOGY 50(12).
31. Hu J., Lo I. M. C., and Chen G. (2005b) Fast Removal and Recovery of Cr(VI) Using Surface-Modified Jacobsite (MnFe2O4) Nanoparticles. Langmuir 21.
32. In S., Orlov A., Garcia F., Tikhov M., Wright D. S., and Lambert R. M. (2006) Efficient visible light-active N-doped TiO2 photocatalysts by a reproducible and controllable synthetic route. CHEMICAL COMMUNICATIONS(40).
33. Jacangelo J. g., Trussell R. R., and Watson M. (1997) Role of membrane technoloogy in drinking water treatment in the United States. Desalination 113.
34. Jakobs D. and Baumgarten G. (2002) Nanofiltration of nitric acidic solutions from Picture Tube production. DESALINATION 145(1-3).
35. Jin J., Li R., Wang H., Chen H., Liang K., and Ma J. (2007) Magnetic Fe nanoparticle functionalized water-soluble multi-walled carbon nanotubules towards the preparation of sorbent for aromatic compounds removal. Chem. Commun.
36. Kostal J., Prabhukumar G., Lao U. L., Chen A., Matsumoto M., Mulchandani A., and Chen W. (2005) Customizable biopolymers for heavy metal remediation. Journal of Nanoparticle Research 7.
37. Lahann J. (2008) Nanomaterials clean up. NATURE NANOTECHNOLOGY.
38. Laurent P., Servais P., Gatel D., Randon G., Bonne P., and Cavard J. (1999) Migrobiological quality before and after nanofiltration. J. AWWA 91(10).
39. Lee S. and Lueptow R. M. (2001) Membrane rejection of nitrogen compounds. ENVIRONMENTAL SCIENCE & TECHNOLOGY 35(14).
40. Li X.-q., Elliott D. W., and Zhang W.-x. (2006) Zero-Valent Iron Nanoparticles for Abatement of Environmental Pollutants: Materials and Engineering Aspects. Critical Reviews in Solid State and Materials Sciences 31.
41. Li Y.-H., Wang S., Cao A., Zhao D., Zhang X., Xu C., Luan Z., Ruan D., Liang J., Wu D., et al. (2001) Adsorption of fluoride from water by amorphous alumina supported on carbon nanotubes. Chemical Physics Letters 350.
42. Liang P., Ding Q., and Song F. (2005) Application of multiwalled carbon nanotubes as solid phase extraction sorbent for preconcentration of trace copper in water samples. J. Sep. Sci 28.
43. Liu R. and Zhao D. (2007) In situ immobilization of Cu(II) in soils using a new class of iron phosphate nanoparticles. Chemosphere 68(10).
44. Liu Y., Li J., Qiu X., and Burda C. (2006) Novel TiO2 nanocatalysts for wastewater purification: tapping energy from the sun. WATER SCIENCE AND TECHNOLOGY 54(8).
45. Lowry G. and Johnson K. (2004) Congener-specific dechlorination of dissolved PCBs by microscale and nanoscale zerovalent iron in a water/methanol solution. ENVIRONMENTAL SCIENCE & TECHNOLOGY 38(19).
46. Mattigod S., Fryxell G., Alford K., Gilmore T., Parker K., Serne J., and Engelhard M. (2005) Functionalized TiO2 nanoparticles for use for in situ anion immobilization. ENVIRONMENTAL SCIENCE & TECHNOLOGY 39(18).
47. McMurray T. A., Dunlop P. S. M., and Byrne J. A. (2006) The photocatalytic degradation of atrazine on nanoparticulate TiO2 films. JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY A-CHEMISTRY 182(1).
48. McMurray T., Byrne J., Dunlop P., and McAdams E. (2005) Photocatalytic and electrochemically assisted photocatalytic oxidation of formic acid on TiO2 films under UVA and UVB irradiation. JOURNAL OF APPLIED ELECTROCHEMISTRY 35(7).
49. Mohesn M., Jaber J., and Afonso M. (2003) Desalination of brackish water by nanofiltration and reverse osmosis. Desalination 157.
50. Molinari R., Argurio P., and Romeo L. (2001) Studies on interactions between membranes (RO and NF) and pollutants(SiO2, NO3-, Mn++ and humic acid) in water DESALINATION 138(1-3).
51. Morrison M. (2006) Nano&Environment - Report from the workshop organized by Nanoforum and the Institute for Environment and Sustainability, JRC Ispra.
52. Nagaveni K., Sivalingam G., Hegde M. S., and Madras G. (2004a) Photocatalytic Degradation of Organic Compounds over Combustion-Synthesized Nano-TiO2. Environmental science and technology.
53. Nagaveni K., Sivalingam G., Hegde M. S., and Madras G. (2004b) Solar photocatalytic degradation of dyes: high activity of combustion synthesized nano TiO2. Applied Catalysis B: Environmental 48.
54. Nowack B. (2008) Pollution Prevention and Treatment Using Nanotechnology. In Nanotechnology, Vol. 2 (ed. H. Krug). WILEY-VCS Verlag GmbH&Co.
55. Nurmi J., Tratnyek P., Sarathy V., Baer D., Amonette J., Pecher K., Wang C., Linehan J., Matson D., Penn R., et al. (2005) Characterization and properties of metallic iron nanoparticles: Spectroscopy, electrochemistry, and kinetics. ENVIRONMENTAL SCIENCE & TECHNOLOGY 39(5).
56. Obare S. O. and Meyer G. J. (2004) Nanostructured Materials for Environmental Remediation of Organic Contaminants in Water. JOURNAL OF ENVIRONMENTAL SCIENCE AND HEALTH A39(10).
57. Orlov A., Chan MS (Chan, M. S.), Jefferson DA (Jefferson, D. A.), Zhou D (Zhou, D.), Lynch RJ (Lynch, R. J.), Lambert RM (Lambert, R. M.). (2006) Photocatalytic degradation of water-soluble organic pollutants on TiO2 modified with gold nanoparticles. ENVIRONMENTAL TECHNOLOGY 27(7).
58. Orlov A., Jefferson D. A., Tikhov M., and Lambert R. M. (2007) Enhancement of MTBE photocatalytic degradation by modification of TiO2 with gold nanoparticles CATALYSIS COMMUNICATIONS 8(5).
59. Orlov A., Jefferson D., Macleod N., and Lambert R. (2004) Photocatalytic properties of TiO2 modified with gold nanoparticles in the degradation of 4-chlorophenol in aqueous solution. CATALYSIS LETTERS 92(1-2).
60. Orlov A., Tikhov M., and Lambert R. (2006) Application of surface science techniques in the study of environmental photocatalysis: nitrogen doped TiO2. Cmptes REndus Chimie 9(5-6).
61. Orlov A., Zhai Q., and Klinowski J. (2006) Photocatalytic properties of the SBA-15 mesoporous silica molecular sieve modified with titanium. JOURNAL OF MATERIALS SCIENCE 41(8).
62. Otaki M., Yano K., and Ohagaki S. (1998) Virus removal in a membrane separation process. WATER SCIENCE AND TECHNOLOGY 37(10).
63. Pacheco S., Tapia J., Medina M., and Rodriguez R. (2006) Cadmium ions adsorption in simulated wastewater using structured alumina-silica nanoparticles. JOURNAL OF NON-CRYSTALLINE SOLIDS 352(52-54).
64. Parkin I. P. and Palgrave R. G. (2005) Self-cleaning coating. JOURNAL OF MATERIALS CHEMISTRY 15(17).
65. Peng X., Luan Z., Di Z., Zhang Z., and Zhu C. (2005a) Carbon nanotubes-iron oxides magnetic composites as adsorbent for removal of Pb(II) and Cu(II) from water. Carbon 43.
66. Peng X., Luan Z., Ding J., Di Z., Li Y., and Tian B. (2005b) Ceria nanoparticles supported on carbon nanotubes for the removal of arsenate from water. Materials Letters 59.
67. PICADA. (2005) Photocatalytic Innovative Coverings Applications for Depollution Assessment
68. Qiao B., Zhang J., Liu L., and Deng Y. (2008) Low-temperature prepared highly effective ferric hydroxide supported gold catalysts for carbon monoxide selective oxidation in the presence of hydrogen. APPLIED CATALYSIS A-GENERAL 340(2), 220-228.
69. Quinn J., Geiger C., Clausen C., Brooks K., Coon C., O'Hara S., Krug T., Major D., Yoon W., Gavaskar A., et al. (2005) Field demonstration of DNAPL dehalogenation using emulsified zero-valent iron. ENVIRONMENTAL SCIENCE & TECHNOLOGY 39(5).
70. Raff O. and Wilken R. (1999) Removal of dissolved uranium by nanofiltration. Desalination 122(2-3).
71. Ratanatamskul C., Urase T., and Yamamoto K. (1998) Description of behavior in rejection of pollutants in ultra low pressure nanofiltration. WATER SCIENCE AND TECHNOLOGY 38(4-5).
72. Rave n. K., Jain A., and Loeppert R. (1998) Arsenite and arsenate adsorption on ferrihydrite: Kinetics, equilibrium, and adsorption envelopes. ENVIRONMENTAL SCIENCE & TECHNOLOGY 32(3).
73. Redondo J. and Lanari F. (1997) Membrane selection and design considerations for meeting European potable water requirements based on different feedwater conditions. DESALINATION 113(2-3).
74. Rickerby D. and Morrison M. (2007) Report from the Workshop on Nanotechnologies for Environmental Remediation.
75. Satapanajaru T., Anurakpongsatorn P., Pengthamkeerati P., and Boparai H. (2008) Remediation of Atrazine-contaminated Soil and Water by Nano Zerovalent Iron. Water Air Soil Pollut 192(1-4).
76. Savage N. and Diallo M. S. (2005) Nanomaterials and water purification: Opportunities and challenges. Journal of Nanoparticle Research 7.
77. Schaep J., Van der Bruggen B., Uytterhoeven S., Croux R., Vandecasteele C., Wilms D., Van Houtte E., and Vanlergberghe F. (1998) Removal of hardness from groundwater by nanofiltration. Desalination 119(1-3).
78. Schorr J. R. (2007) Promise of Nanomaterials for Water Cleanup. Water Conditioning & Purification.
79. Seidel A., Waypa J., and Elimelech M. (2001) Role of charge (Donnan) exclusion in removal of arsenic from water by a negatively charged porous nanofiltration membrane ENVIRONMENTAL ENGINEERING SCIENCE 18(2).
80. Shin K.-H. and Cha D. K. (2008) Microbial reduction of nitrate in the presence of nanoscale zero-valent iron Chemosphere 72(2).
81. Sichel C., Tello J., de Cara M., and Fernandez-Ibanez P. (2007) Effect of UV solar intensity and dose on the photocatalytic disinfection of bacteria and fungi. CATALYSIS TODAY 129(1-2).
82. Sombekke H., Voorhoeve D., and Hiemstra P. (1997) Environmental impact assessment of groundwater treatment with nanofiltration. Desalination 113(2-3).
83. Song H. and Carraway E. (2005) Reduction of chlorinated ethanes by nanosized zero-valent iron: Kinetics, pathways, and effects of reaction conditions. ENVIRONMENTAL SCIENCE & TECHNOLOGY 39(16).
84. Su S., Lu S. X., and Xu W. G. (2008) Photocatalytic degradation of reactive brilliant blue X-BR in aqueous solution using quantum-sized ZnO. Materials Research Bulletin 43(8-9).
85. Sun X. and Doner H. (1998) Adsorption and oxidation of arsenite on goethite SOIL SCIENCE 163(4).
86. Tang C. and Chen V. (2002) Nanofiltration of textile wastewater for water reuse DESALINATION 143(1).
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