Environmental Engineering Reference
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[21] Moazzen e, Daei N, hosseini SM, ebrahimzadeh h, Monfared A, Amini MM, Sadeghi O. Comparison of the performance of pyridine-
functionalized nanoporous silica particles for the extraction of gold(III) from natural samples. Microchim Acta 2012;178
(3-4):367-372.
[22] Pourreza N, Sheikhnajdi K. Multi-walled carbon nanotube modified with 1-butyl-3-methylimidazolium hexafluorophosphate supported
on sawdust as a selective adsorbent for solid phase extraction of Bi(III). Talanta 2012;99:507-511.
[23] Potapov AS, Khlebnikov AI. Oligomers containing bis(pyrazole-1-yl)methane fragments as sorbents of lanthanide and heavy metal
ions. 2008, Patent rU 2322289 C1 20080420.
[24] rofouei MK, rezaei A, Masteri-Farahani M, Khani h. Selective extraction and preconcentration of ultra-trace level of mercury ions in
water and fish samples using Fe 3 O 4 -magnetite-nanoparticles functionalized by triazene compound prior to its determination by induc-
tively coupled plasma-optical emission spectrometry. Anal Method 2012;4 (4):959-966.
[25] Izzuddin I, Jumali Mhh, Yahaya M, Salleh MM. New hybridization approach of titanium organometallic: PANi thin films as room tem-
perature gas sensors. Sains Malays 2012;41 (8):1017-1021.
[26] Mamuru SA, Ozoemena KI. Impedimetric and electrocatalytic properties of nanostructured iron(II) phthalocyanine at pyrolytic graphite
electrode. Mater Chem Phys 2009;114 (1):113-119.
[27] gu F, xu gQ, Ang Sg. Fabrication of CuTAPc polymer nanowires and nanotubes by electropolymerization. Nanotechnology 2008;19
(14):145606/1-145606/7.
[28] guo L, Pan h, Shen S, huang J. Preparation of nanosized mesoporous CuTSPc/SnO 2 and its photocatalytic activity under visible light
irradiation. Cuihua xuebao 2009;30 (1):53-59.
[29] grandjean A, Barre Y, guari Y, Larionova J, guerin C. Solid hexa- and octacyanometallate nanocomposite material for fixing radioac-
tive cesium nanoparticles. PCT International Application. WO 2010133689. 2010.
[30] Saghatforoush LA, Mehdizadeha r, Chalabian F. Synthesis of CuO nanoparticles from a new nano-structured copper(II) Schiff base
complex by ultrasonic and solvothermal methods: structural, thermal and antibacterial studies. J Chem Pharm res 2011;
3 (2):691-702.
[31] Bagheri h, Afkhami A, Saber-Tehrani M, Khoshsafar h. Preparation and characterization of magnetic nanocomposite of Schiff base/
silica/magnetite as a preconcentration phase for the trace determination of heavy metal ions in water, food and biological samples using
atomic absorption spectrometry. Talanta 2012;97:87-95.
[32] Shishehbore Mr, Afkhami A, Bagheri h. Salicylic acid functionalized silica-coated magnetite nanoparticles for solid phase extraction
and preconcentration of some heavy metal ions from various real samples. Chem Cent J 2011;5:41.
[33] Nguyen Tx, Sanchez DPV, Kim Th, Park hI, Yun M, Lee Yh. Diffusion-limited reduction of organometallic compound on carbon
nanofiber mat for catalytic applications. J Mater Chem 2010;20 (26):5468-5473.
[34] Di Iorio Y, San roman e, Litter MI, grela MA. Photoinduced reactivity of strongly coupled TiO 2 ligands under visible irradiation: an
examination of an Alizarin red@TiO 2 nanoparticulate system. J Phys Chem C 2008;112 (42):16532-16538.
[35] han S-C, Choo K-h, Choi S-J, Benjamin MM. removal of manganese from water using combined chelation/membrane separation
systems. Water Sci Technol 2005;51 (6-7):349-355.
[36] Murthy ZVP, Choudhary A. Separation of cerium from feed solution by nanofiltration. Desalination 2011;279 (1-3):428-432.
[37] Koehler FM, rossier M, Waelle M, Athanassiou eK, Limbach LK, grass rN, guenther D, Stark WJ. Magnetic eDTA: coupling heavy
metal chelators to metal nanomagnets for rapid removal of cadmium, lead and copper from contaminated water. Chem Commun
2009;32:4862-4864.
[38] Sun W, xie M, Jing L, Luan Y, Fu h. Synthesis of large surface area nano-sized BiVO 4 by an eDTA-modified hydrothermal process and
its enhanced visible photocatalytic activity. J Solid State Chem 2011;184 (11):3050-3054.
[39] Wang M-W. Using chelating chitosan nanobeads and a microfluidic-microelectric trap to sort lead(II) in a continuous bloodstream flow.
J electrochem Soc 2011;158 (3):D166-D171.
[40] Zhang A, Zhang N, hong S, Zhang M. Nanocrystalline cuprous oxide in chitosan membrane: preparation, characterization, and photo-
catalytic properties. Kinet Catal 2009;50 (5):748-751.
[41] Du W-L, Niu S-S, xu Y-L, xu Z-r, Fan C-L. Antibacterial activity of chitosan tripolyphosphate nanoparticles loaded with various metal
ions. Carbohydr Polym 2009;75:385-389.
[42] Venkatachalam K, gavalas Vg, xu S, de Leon AC, Bhattacharyya D, Bachas Lg. Poly(amino acid)-facilitated electrochemical growth
of metal nanoparticles. J Nanosci Nanotechnol 2006;6 (8):2408-2412.
[43] Abu-Daabes MA, Neville g. Synthesis and characterization of a nano-structured sorbent for the direct removal of mercury vapor from
flue gases by chelation. Chem eng Sci 2005;60 (7):1901-1910.
[44] Li L, Wu J, Zhao M, Wang Y, Zhang h, Zhang x, gui L, Liu J, Mair N, Peng S. Poly-α,β-DL-Aspartyl-L-Cysteine: a novel nanomaterial
having a porous structure, special complexation capability for Pb(II), and selectivity of removing Pb(II). Chem res Toxicol 2012;
25 (9):1948-1954.
[45] Yang T, Liu L-h, Liu J-w, Chen M-L, Wang J-h. Cyanobacterium metallothionein decorated graphene oxide nanosheets for highly
selective adsorption of ultra-trace cadmium. J Mater Chem 2012;22 (41):21909-21916.
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