Year 2015,
Volume: 2 Issue: 1, 28 - 42, 01.06.2015
Mehmet Ali Özler
Said Nadeem
References
- L.J. Bao, K.A. Maruya, S.A. Snyder ,E.Y. Zeng, China's water pollution by persistent organic pollutants. Environ Pollut, 163 (2012) 100-108
- Y. Yamada, Y. Mito ,S. Nakashima, Organic pollution in dammed river water in a low-precipitation region of Japan. Limnology, 11 (2010) 267-272
- J.M. Shandra, E. Shor ,B. London, World Polity, Unequal Ecological Exchange, and Organic Water Pollution: A Cross-National Analysis of Developing Nations. Hum Ecol Rev, 16 (2009) 53-63
- Z.X. Shen, R. Arimoto, J.J. Cao, R.J. Zhang, X.X. Li, N. Du, T. Okuda, S. Nakao, S. Tanaka, Seasonal Variations and Evidence for the Effectiveness of Pollution Controls on Water-Soluble Inorganic Species in Total Suspended Particulates and Fine Particulate Matter from Xi'an, China. J Air Waste Manage, 58 (2008) 1570
- M. Siepak, P. Niedzielski ,K. Bierla, Determination of inorganic speciation forms of arsenic, antimony and selenium in water from a grate ashes dumping ground as an element of hydrogeochemical monitoring of pollution spread. Pol J Environ Stud, 13 (2004) 709-713
- D. Nehring, Studies on Distribution of Inorganic Nitrogen Compounds Regarding Increasing Water Pollution in Baltic Sea. Beitr Meereskd, (1971) 57-&
- A. Bramm, Interaction between Modern Systems of Agricultural Production and Pollution of Percolating Water by Inorganic and Organic-Substances. Landbauforsch Volk, 28 (1978) 79-94
- H.K. Hussein, O.A. Abu-Zinadah, H.A.S. El Rabey ,M.F. Meerasahib, Environmental assessment of ground water pollution by heavy metals and bioaccumulation of mercury residues in chicken tissues. Afr J Biotechnol, 10 (2011) 16089-16100
- T.R. He, B.Z. Li, X.L. Li ,C.D. Liu, Heavy metals pollution in water, suspended matter and surface sediment in typical mountainous urban river: A case study in Qingshui Stream in Chongqing, China. J Cent South Univ T, 16 (2009) 286-291
- O. Solaun, J.G. Rodriguez, A. Borja, M. Gonzalez ,J.I. Saiz-Salinas, Biomonitoring of metals under the water framework directive: Detecting temporal trends and abrupt changes, in relation to the removal of pollution sources. Mar Pollut Bull, 67 (2013) 26-35
- J.F. Drake, Present and Future Role If Instrumentation in Water-Pollution Control. Effluent Water Treat, 12 (1972) 181-&
- H.X. Zhao, W. Cai, D. Ha, H. Wan ,P. Wang, The Study on Novel Microelectrode Array Chips for the Detection of Heavy Metals in Water Pollution. J Innov Opt Heal Sci, 5 (2012)
- G. Walkuska, H. Bojar, A. Chalabis-Mazurek ,K. Kursa, Mallard (Anas Platyrhynchos L.) as Bioindicator of Pollution with Selected Heavy Metals of Some Water Reservoirs in the Lublin District. Fresen Environ Bull, 19 (2010) 383-389
- J. Tariq, M. Ashraf ,M. Jaffar, Metal Pollution Status of the River Chennab, Pakistan through Fish, Water and Sediment Analysis. Toxicol Environ Chem, 38 (1993) 175-181
- G. Bozsai ,M. Csanady, Systematic Investigations on the Heavy-Metal Pollution (Cd, Pb, Cu, Zn, Cr, Ba) of Drinking-Water Using Atomic-Absorption Spectrometric Methods. Fresen Z Anal Chem, 297 (1979) 370
- R.A. Vansteenderen, The Role of Doc, Uv Absorption and Toh Measurements in Water-Pollution Control. Water Sci Technol, 14 (1982) 1535-1537
- UV light zaps water pollution. Chem Eng Prog, 96 (2000) 13-13
- Water pollution kept in check by fluorescence. Prof Eng, 19 (2006) 49-49
- D. Konarik, I. Prochazka, J. Blazej, K. Hamal ,L. Kral, Semiconductor photon counter and microlaser based system for water pollution remote sensing by laser induced fluorescence - art. no. 61800D. P Soc Photo-Opt Ins, 6180 (2006) D1800-D1800
- R.S. Wright, S.J. Kerkhoff ,C.R. Cothern, Water Pollution Analysis Using Ion Exchange and X-Ray Fluorescence. B Am Phys Soc, 16 (1971) 858-&
- S.H. Kim, S.H. Kim ,Y.A. Son, A Highly Selective Detection Properties of 1,3-Bisdicyanovinylindane for Hg2+ Ion. Mol Cryst Liq Cryst, 538 (2011) 320-326
- I. Grabchev ,J.M. Chovelon, New blue fluorescent sensors for metal cations and protons based on 1,8- naphthalimide. Dyes Pigments, 77 (2008) 1-6
- T.Y. Cheng, T. Wang, W.P. Zhu, X.L. Chen, Y.J. Yang, Y.F. Xu, X.H. Qin, Red-Emission Fluorescent Probe Sensing Cadmium and Pyrophosphate Selectively in Aqueous Solution. Org Lett, 13 (2011) 3656-3659
- D. Floydgimon, K. Frey, J. Sorenson ,W.C. Arnold, Dialysis for Removal of Trace-Metals - Comparison of Hemofiltration (Hf), Charcoal Hemoperfusion (Chp), Hemodialysis (Hd), and Dialysate Sorbate System (Hdss) and Alukarts (Ak). Clin Res, 34 (1986) A264-A264
- E.A. El-Sofany, W.F. Zaher ,H.F. Aly, Sorption potential of impregnated charcoal for removal of heavy metals from phosphoric acid. J Hazard Mater, 165 (2009) 623-629
- H. Swart, I.J. Cronje, J. Dekker ,T.E. Cloete, Removal of Metals from Industrial Water-Systems Using Oxidized Coal Products. Gas, Oil, Coal, and Environmental Biotechnology Iii, (1991) 315-325
- N. Koukouzas, C. Vasilatos, G. Itskos, I. Mitsis ,A. Moutsatsou, Removal of heavy metals from wastewater using CFB-coal fly ash zeolitic materials. J Hazard Mater, 173 (2010) 581-588
- F. Ferrero ,M.P.G. Prati, Coal fly ash and alginate for the removal of heavy metals from aqueous solutions. Ann Chim-Rome, 86 (1996) 125-132
- S.B. Wang, M. Soudi, L. Li ,Z.H. Zhu, Coal ash conversion into effective adsorbents for removal of heavy metals and dyes from wastewater. J Hazard Mater, 133 (2006) 243-251
- H. Trevino-Cordero, L.G. Juarez-Aguilar, D.I. Mendoza-Castillo, V. Hernandez-Montoya, A. Bonilla- Petriciolet ,M.A. Montes-Moran, Synthesis and adsorption properties of activated carbons from biomass of Prunus domestica and Jacaranda mimosifolia for the removal of heavy metals and dyes from water. Ind Crop Prod, 42 (2013) 315-323
- D. Claveau-Mallet, S. Wallace ,Y. Comeau, Removal of phosphorus, fluoride and metals from a gypsum mining leachate using steel slag filters. Water Res, 47 (2013) 1512-1520
- A. Witek-Krowiak, Application of beech sawdust for removal of heavy metals from water: biosorption and desorption studies. Eur J Wood Wood Prod, 71 (2013) 227-236
- T. Vander Hoogerstraete, S. Wellens, K. Verachtert ,K. Binnemans, Removal of transition metals from rare earths by solvent extraction with an undiluted phosphonium ionic liquid: separations relevant to rare-earth magnet recycling. Green Chem, 15 (2013) 919-927
- O. Sayar, M.M. Amini, H. Moghadamzadeh, O. Sadeghi ,S.J. Khan, Removal of heavy metals from industrial wastewaters using amine-functionalized nanoporous carbon as a novel sorbent. Microchim Acta, (2013) 227-233
- F.B. Liang, Y.L. Song, C.P. Huang, Y.X. Li ,B.H. Chen, Synthesis of Novel Lignin-Based Ion-Exchange Resin and Its Utilization in Heavy Metals Removal. Ind Eng Chem Res, 52 (2013) 1267-1274
- F.A. Harraz, O.E. Abdel-Salam, A.A. Mostafa, R.M. Mohamed ,M. Hanafy, Rapid synthesis of titania-silica nanoparticles photocatalyst by a modified sol-gel method for cyanide degradation and heavy metals removal. J Alloy Compd, 551 (2013) 1-7
- M. Ghorbani ,H. Eisazadeh, Removal of COD, color, anions and heavy metals from cotton textile wastewater by using polyaniline and polypyrrole nanocomposites coated on rice husk ash. Compos Part B- Eng, 45 (2013) 1-7
- Q. Wang, M.X. Song, X.M. Liu, A. Nasier ,W.Q. Zhu, Study of the Organic Soil Modified by Alkyl Quaternary Ammonium in Water Pollution Treatment. Asian J Chem, 24 (2012) 4365-4368
- V. Avramenko, S. Bratskaya, V. Zheleznov, I. Sheveleva, O. Voitenko ,V. Sergienko, Colloid stable sorbents for cesium removal: Preparation and application of latex particles functionalized with transition metals ferrocyanides. J Hazard Mater, 186 (2011) 1343-1350
- A. Zach-Maor, R. Semiat ,H. Shemer, Removal of heavy metals by immobilized magnetite nano-particles. Desalin Water Treat, 31 (2011) 64-70
- S.W. Kang, S.K. Kim, S.L. Yun, H.C. Oh ,J.H. Ahn, Removal of Particles and Dissolved Metals in Motorway Runoff by Filtration and Adsorption Using the Expanded Polypropylene Media. Mater Sci Forum, 620-622 (2009) 125-128
- W. Yantasee, R.D. Rutledge, W. Chouyyok, V. Sukwarotwat, G. Orr, C.L. Warner, M.G. Warner, G.E. Fryxell, R.J. Wiacek, C. Timchalk, R.S. Addleman, Functionalized Nanoporous Silica for the Removal of Heavy Metals from Biological Systems: Adsorption and Application. Acs Appl Mater Inter, 2 (2010) 2749
- T. Panadda, C. Worakarn, C. Saksit ,R. Chalerm, Removal of heavy metals from artificial metals contaminated water samples based on micelle-templated silica modified with pyoverdin I. J Environ Sci- China, 21 (2009) 1009-1016
- S.A. Abo-El-Enein, M.A. Eissa, A.A. Diafullah, M.A. Rizk ,F.M. Mohamed, Removal of some heavy metals ions from wastewater by copolymer of iron and aluminum impregnated with active silica derived from rice husk ash. J Hazard Mater, 172 (2009) 574-579
- Z.A. Al-Othman ,A.W. Apblett, Synthesis and evaluation of functionalized ordered mesoporous silica for the removal and separation of heavy metals from aqueous streams. Abstr Pap Am Chem S, 229 (2005) U706-U706
- R.I. Nooney, E. Maginn ,D. Moore, Synthesis and evaluation of functionalized ordered mesoporous silica spheres for the removal of heavy metals from aqueous streams and the separation of olefin-paraffin mixtures. Abstr Pap Am Chem S, 219 (2000) U321-U321
- W. Yantasee, Y.H. Lin, G.E. Fryxell, B.J. Busche ,J.C. Birnbaum, Removal of heavy metals from aqueous solution using novel nanoengineered sorbents: Self-assembled carbamoylphosphonic acids on mesoporous silica. Separ Sci Technol, 38 (2003) 3809-3825
- S. Kaneko, K. Tsukamoto ,F. Imoto, Removal of Heavy-Metals in Wastewater by Using Complex Oxides Gels .2. Adsorption and Elution of Chromium(Vi) on Coprecipitated Silica-Titania Gel. Nippon Kagaku Kaishi, (1979) 1250-1255
- Y.J. Liu ,Y.P. Zhang, Oxygen Sensing Properties of a Novel Ruthenium(II) Complex Containing Oxadiazole-functionalized 1, 10-Phenanthroline Derivative Ligand Incorporated in Mesoporous Silica MCM-41. Z Anorg Allg Chem, 639 (2013) 533-537
- N. Leventis, A.M. Rawashdeh, I.A. Elder, J.H. Yang, A. Dass ,C. Sotiriou-Leventis, Silica aerogels doped with Ru(II) tris(1,10-phenanthroline)-electron acceptor DYADS: Improving the dynamic range, sensitivity and response time of sol-gel based optical oxygen sensors. Abstr Pap Am Chem S, 227 (2004) U840-U840
- B.J. Smith ,T.D.P. Stack, Controlled loadings of 1,10-phenanthroline on mesoporous silica: Metal complexation, spectroscopic characterization, and oxidative catalysis. Abstr Pap Am Chem S, 242 (2011)
- V. Divya, S. Biju, R.L. Varma ,M.L.P. Reddy, Highly efficient visible light sensitized red emission from europium tris[1-(4-biphenoyl)-3-(2-fluoroyl)propanedione](1,10-phenanthroline) complex grafted on silica nanoparticles. J Mater Chem, 20 (2010) 5220-5227
- B. Puzio, B. Mikula ,B. Feist, Preconcentration of Cd(II) and Cu(II) by solid phase extraction on cyanopropyl modified silica columns using 1,10-phenanthroline as the complexing agent. Microchim Acta, (2008) 197-201
- E.A. Ferreiro ,S.G. de Bussetti, Apparent and partial specific adsorption of 1,10-phenanthroline on mixtures of Ca-montmorillonite, activated carbon, and silica gel. J Colloid Interf Sci, 292 (2005) 54-62
- C. Ye, S.X. Jun, C.W. Min, Y.Y. Ning ,C. Dan, Preparation and luminescence properties of the europium complex with alpha-naphthylacetic acid and 1,10-phenanthroline incorporated in silica matrix by sol-gel method. Mater Chem Phys, 80 (2003) 371-375
- C.M. Taylor, S.P. Watton, P.A. Bryngelson ,M.J. Maroney, Inner-sphere complexation of cobalt(II) 2,9- dimethyl-1,10-phenanthroline ([Co(neo)](2+)) with commercial and sol-gel derived silica gel surfaces. Inorg Chem, 42 (2003) 312-320
- M. Shamsipur, M. Javanbakht, Z. Ghasemi, M.R. Ganjali, V. Lippolis ,A. Garau, Separation, preconcentration and determination of trace amounts of silver ion in aqueous samples using octadecyl silica membrane disks modified with some recently synthesized mixed aza-thioether crowns containing 1,10- phenanthroline sub-unit and atomic absorption spectrometry. Sep Purif Technol, 28 (2002) 141-147
- G.M. Kloster ,S.P. Watton, Oxidation of immobilized iron(II)-1,10-phenanthroline complexes by cerium(IV): a probe into the site accessibility of metal complexes covalently attached to silica sol-gels. Inorg Chim Acta, 297 (2000) 156-161
- A.O. Eseola, W.H. Sun, W. Li ,J.A.O. Woods, Syntheses of new imidazole ligand series and evaluation of , 2-and 4,5-imidazole substituent electronic and steric effects on N-donor strengths. J Mol Struct, 984 (2010) 117-124
- J.Z. Zhao, S.M. Ji, H.M. Guo, X.L. Yuan, X.H. Li, H.D. Ding, P. Gao, C.X. Zhao, W.T. Wu, W.H. Wu, A Highly Selective OFF-ON Red-Emitting Phosphorescent Thiol Probe with Large Stokes Shift and Long Luminescent Lifetime. Org Lett, 12 (2010) 2876-2879
- K. Kawamura, T. Nakai, K. Ikoma ,H. Hisamoto, High-throughput Ru(III) analysis using the hydrothermal flow reactor-mediated FIA by the extreme acceleration of Ru(III) complexation with 1,10-phenanthroline. Talanta, 99 (2012) 415-419
- X.L. Zhang ,K. Cheng, Synthesis, Crystal Structure, and DNA-Binding Property of Ruthenium (IV) Complex With 2,5-dimercapto-1,3,4-thiadiazole and 1,10-phenanthroline. Synth React Inorg M, 42 (2012)
- C.J. Xu ,Y.Q. Shi, Synthesis and Luminescence Properties of a Reactive Ternary Europium Complex Containing 1,10-Phenanthroline. Spectrosc Spect Anal, 33 (2013) 116-119
- H.Y. Zhao, J.J. Ma ,F.L. Yang, Synthesis, Crystal Structure and the Interaction with DNA of the Fe(II) Complex with Tris-(1,10-phenanthroline-5,6-dione). Chinese J Inorg Chem, 28 (2012) 2468-2472
- S. Mistri, S. Garcia-Granda, E. Zangrando ,S.C. Manna, Fluorescent bis-chelated-1,10-phenanthroline- azido-copper(II) complex for selective sensing of aniline. Polyhedron, 50 (2013) 333-338
- W.X. Li, Y.S. Zheng, L. Saiji, Y.J. Li, J. Zhang ,B.Y. Ao, Fluorescence enhancement of terbium(III) perchlorate by 1,10-phenanthroline on acetophenonylcarboxymethyl sulfoxide complex and luminescence mechanism. J Lumin, 134 (2013) 847-852
- R.H. Zheng, H.J. Jiang, Q. Shen ,H.C. Guo, Synthesis and Magnetic Properties of Poly(Schiff base) Complex Containing 4,7-Disubstituted-1,10-phenanthroline. Adv Mater Res-Switz, 399-401 (2012) 1043
- S.P. Yang, L.J. Han, Y. Pan, Z.M. Wu, X.R. He ,L.J. Chen, Synthesis, Crystal Structure and Antibacterial Activity of A Bismuth(III) Complex [Bi-2(PPA)(6)center dot(Phen)(2)] with Phenylacetic Acid and 1,10- Phenanthroline. Acta Chim Sinica, 70 (2012) 519-524
- X.J. Xu, X.Y. Wu, W.Z. Xu, W. Zhou ,Y.S. Yan, Hydrothermal Synthesis, Crystal Structure and Thermal Stability of a Supramolecular Lead(II) Complex with 4-Nitrobenzoic Acid and 1,10-Phenanthroline. Chinese J Struc Chem, 31 (2012) 639-644
- X.Y. Wu, J.F. Liu ,G.L. Zhao, Synthesis, Crystal Structure, Luminescence Property and DNA-Binding of a Manganese(II) Complex with p-Hydroxyphenylacetic Acid and 1,10-Phenanthroline. Chinese J Inorg Chem, 28 (2012) 1190-1194
- R.X. Wang, S.W. Wang ,Y.J. Qi, Hydrothermal Synthesis, Crystal Structure and Properties of Cobalt Complex Based on 1,10-Phenanthroline and 1,3,5-Benzenetricarboxylate Ligands. Chinese J Inorg Chem, (2012) 536-540
- T. Peppel, P. Thiele ,M. Kockerling, Low-Melting Salts with the [Cr-III(NCS)(4)(1,10-Phenanthroline)](-) Complex Anion: Syntheses, Properties, and Structures. Russ J Coord Chem+, 38 (2012) 207-218
- N. Shahabadi ,L. Nemati, DNA Interaction Studies of a Platinum(II) Complex Containing L-Histidine and ,10-Phenanthroline Ligands. DNA Cell Biol, 31 (2012) 883-890
- T.N. Fedotova, Z.V. Dobrokhotova, P.S. Koroteev, G.N. Kuznetsova, G.G. Aleksandrov, V.K. Ivanov, E.F. Zharikova, I.L. Eremenko, Reaction of the Pt-III complex, [Pt-2(mu-NHCOMe)(4)Cl-2], with 1,10- phenanthroline and solid-state thermolysis of 1,10-phenanthroline-containing platinum blues. Russ Chem B+, 61 (2012) 230-239
- S. Niroomand, M. Khorasani-Motlagh, M. Noroozifar ,A. Moodi, Spectroscopic studies on the binding of holmium-1,10-phenanthroline complex with DNA. J Photoch Photobio B, 117 (2012) 132-139
- Z. Naseri, A. Hakimi, S. Shirvani-Arani, A.R. Jalilian, A. Bahrami-Samani, M.N. Kharat, M. Ghannadi- Maragheh, Preparation and quality control of Sm-153-[tris(1,10-phenanthroline) samarium (III)] complex. Iran J Radiat Res, 10 (2012) 59-62
- N. Shahabadi, S. Kashanian ,Z. Ahmadipour, DNA Binding and Gel Electrophoresis Studies of a New Silver( I) Complex Containing 2,9-Dimethyl-1,10-Phenanthroline Ligands. DNA Cell Biol, 30 (2011) 187
- H.F. Chen, M.J. Zhang, M.S. Wang, W.B. Yang, X.G. Guo ,C.Z. Lu, Synthesis, structure, photoluminescence and theoretical calculations on a novel tetranuclear Cd(II) complex based on (2,3-f)- pyrazino(1,10) phenanthroline-2,3-dicarboxylic acid. Inorg Chem Commun, 23 (2012) 123-126
- E. Yamaguchi, F. Shibahara ,T. Murai, Direct Sequential C3 and C1 Arylation Reaction of Imidazo[1,5- a]pyridine Catalyzed by a 1,10-Phenanthroline-Palladium Complex. Chem Lett, 40 (2011) 939-940
- A.N. Wein, A.T. Stockhausen, K.I. Hardcastle, M.R. Saadein, S.F. Peng, D.S. Wang, D.M. Shin, Z. Chen, J.F. Eichler, Tumor cytotoxicity of 5,6-dimethyl-1,10-phenanthroline and its corresponding gold(III) complex. J Inorg Biochem, 105 (2011) 663-668
- X.S. Tai, Synthesis, Structural Characterization and Luminescence Property of Ring-like Zinc(II) Complex of N-paratoluensulfonyl-glycine Acid and 1,10-Phenanthroline. Advanced Research on Intelligent Materials and Mechanical Engineering, 321 (2011) 127-130
- B. Machura, M. Wolff, M. Jaworska, P. Lodowski, E. Benoist, C. Carrayon, N. Saffon, R. Kruszynski, Z. Mazurak, Rhenium(I) carbonyl complex of 4,7-diphenyl-1,10-phenanthroline-Spectroscopic properties, X- Ray structure, theoretical studies of ground and excited electronic states. J Organomet Chem, 696 (2011)
- G.N. Liu, G.C. Guo, M.J. Zhang, J.S. Guo, H.Y. Zeng ,J.S. Huang, Different Effects of a Cotemplate and (Transition-Metal)-(1,10-Phenanthroline)(m)](2+) (m=1-3) Complex Cations on the Self-assembly of a Series of Hybrid Selenidostannates Showing Combined Optical Properties of Organic and Inorganic Components. Inorg Chem, 50 (2011) 9660-9669
SYNTHESIS OF NOVEL NAKED-EYE FE3+ CHEMOSENSING SILICA PARTICLES AND RH+3 COMPLEX BASED ON 4- 1H-IMIDAZO[4,5-F][1,10]PHENANTHROLINE-2YLPHENOL
Year 2015,
Volume: 2 Issue: 1, 28 - 42, 01.06.2015
Mehmet Ali Özler
Said Nadeem
Abstract
A Rh3+ complex 4 derived from 4- 1H-imidazo[4,5-f][1,10]phenanthrolin-2-yl phenol 3 was prepared at room temperature. 3 was stirred with pentamethylcyclopentadienlyrhodium chloride dimer for 30 minutes which resulted yellow precipitates which were washed with methanol, redissolved in acetone and purified chromatographically with ethanol. Phenanthroline-derived 3 was reacted with 3-chloropropyl trimethoxysilane to obtain an alkylated compound 5. Silica particles were functionalized by reacting with 5 at 70 oC in DMF for 6 h. Functionalized silica particles can be used for removal of different metals from aqueous and organic solutions and due to their bigger size can be easily filtered
References
- L.J. Bao, K.A. Maruya, S.A. Snyder ,E.Y. Zeng, China's water pollution by persistent organic pollutants. Environ Pollut, 163 (2012) 100-108
- Y. Yamada, Y. Mito ,S. Nakashima, Organic pollution in dammed river water in a low-precipitation region of Japan. Limnology, 11 (2010) 267-272
- J.M. Shandra, E. Shor ,B. London, World Polity, Unequal Ecological Exchange, and Organic Water Pollution: A Cross-National Analysis of Developing Nations. Hum Ecol Rev, 16 (2009) 53-63
- Z.X. Shen, R. Arimoto, J.J. Cao, R.J. Zhang, X.X. Li, N. Du, T. Okuda, S. Nakao, S. Tanaka, Seasonal Variations and Evidence for the Effectiveness of Pollution Controls on Water-Soluble Inorganic Species in Total Suspended Particulates and Fine Particulate Matter from Xi'an, China. J Air Waste Manage, 58 (2008) 1570
- M. Siepak, P. Niedzielski ,K. Bierla, Determination of inorganic speciation forms of arsenic, antimony and selenium in water from a grate ashes dumping ground as an element of hydrogeochemical monitoring of pollution spread. Pol J Environ Stud, 13 (2004) 709-713
- D. Nehring, Studies on Distribution of Inorganic Nitrogen Compounds Regarding Increasing Water Pollution in Baltic Sea. Beitr Meereskd, (1971) 57-&
- A. Bramm, Interaction between Modern Systems of Agricultural Production and Pollution of Percolating Water by Inorganic and Organic-Substances. Landbauforsch Volk, 28 (1978) 79-94
- H.K. Hussein, O.A. Abu-Zinadah, H.A.S. El Rabey ,M.F. Meerasahib, Environmental assessment of ground water pollution by heavy metals and bioaccumulation of mercury residues in chicken tissues. Afr J Biotechnol, 10 (2011) 16089-16100
- T.R. He, B.Z. Li, X.L. Li ,C.D. Liu, Heavy metals pollution in water, suspended matter and surface sediment in typical mountainous urban river: A case study in Qingshui Stream in Chongqing, China. J Cent South Univ T, 16 (2009) 286-291
- O. Solaun, J.G. Rodriguez, A. Borja, M. Gonzalez ,J.I. Saiz-Salinas, Biomonitoring of metals under the water framework directive: Detecting temporal trends and abrupt changes, in relation to the removal of pollution sources. Mar Pollut Bull, 67 (2013) 26-35
- J.F. Drake, Present and Future Role If Instrumentation in Water-Pollution Control. Effluent Water Treat, 12 (1972) 181-&
- H.X. Zhao, W. Cai, D. Ha, H. Wan ,P. Wang, The Study on Novel Microelectrode Array Chips for the Detection of Heavy Metals in Water Pollution. J Innov Opt Heal Sci, 5 (2012)
- G. Walkuska, H. Bojar, A. Chalabis-Mazurek ,K. Kursa, Mallard (Anas Platyrhynchos L.) as Bioindicator of Pollution with Selected Heavy Metals of Some Water Reservoirs in the Lublin District. Fresen Environ Bull, 19 (2010) 383-389
- J. Tariq, M. Ashraf ,M. Jaffar, Metal Pollution Status of the River Chennab, Pakistan through Fish, Water and Sediment Analysis. Toxicol Environ Chem, 38 (1993) 175-181
- G. Bozsai ,M. Csanady, Systematic Investigations on the Heavy-Metal Pollution (Cd, Pb, Cu, Zn, Cr, Ba) of Drinking-Water Using Atomic-Absorption Spectrometric Methods. Fresen Z Anal Chem, 297 (1979) 370
- R.A. Vansteenderen, The Role of Doc, Uv Absorption and Toh Measurements in Water-Pollution Control. Water Sci Technol, 14 (1982) 1535-1537
- UV light zaps water pollution. Chem Eng Prog, 96 (2000) 13-13
- Water pollution kept in check by fluorescence. Prof Eng, 19 (2006) 49-49
- D. Konarik, I. Prochazka, J. Blazej, K. Hamal ,L. Kral, Semiconductor photon counter and microlaser based system for water pollution remote sensing by laser induced fluorescence - art. no. 61800D. P Soc Photo-Opt Ins, 6180 (2006) D1800-D1800
- R.S. Wright, S.J. Kerkhoff ,C.R. Cothern, Water Pollution Analysis Using Ion Exchange and X-Ray Fluorescence. B Am Phys Soc, 16 (1971) 858-&
- S.H. Kim, S.H. Kim ,Y.A. Son, A Highly Selective Detection Properties of 1,3-Bisdicyanovinylindane for Hg2+ Ion. Mol Cryst Liq Cryst, 538 (2011) 320-326
- I. Grabchev ,J.M. Chovelon, New blue fluorescent sensors for metal cations and protons based on 1,8- naphthalimide. Dyes Pigments, 77 (2008) 1-6
- T.Y. Cheng, T. Wang, W.P. Zhu, X.L. Chen, Y.J. Yang, Y.F. Xu, X.H. Qin, Red-Emission Fluorescent Probe Sensing Cadmium and Pyrophosphate Selectively in Aqueous Solution. Org Lett, 13 (2011) 3656-3659
- D. Floydgimon, K. Frey, J. Sorenson ,W.C. Arnold, Dialysis for Removal of Trace-Metals - Comparison of Hemofiltration (Hf), Charcoal Hemoperfusion (Chp), Hemodialysis (Hd), and Dialysate Sorbate System (Hdss) and Alukarts (Ak). Clin Res, 34 (1986) A264-A264
- E.A. El-Sofany, W.F. Zaher ,H.F. Aly, Sorption potential of impregnated charcoal for removal of heavy metals from phosphoric acid. J Hazard Mater, 165 (2009) 623-629
- H. Swart, I.J. Cronje, J. Dekker ,T.E. Cloete, Removal of Metals from Industrial Water-Systems Using Oxidized Coal Products. Gas, Oil, Coal, and Environmental Biotechnology Iii, (1991) 315-325
- N. Koukouzas, C. Vasilatos, G. Itskos, I. Mitsis ,A. Moutsatsou, Removal of heavy metals from wastewater using CFB-coal fly ash zeolitic materials. J Hazard Mater, 173 (2010) 581-588
- F. Ferrero ,M.P.G. Prati, Coal fly ash and alginate for the removal of heavy metals from aqueous solutions. Ann Chim-Rome, 86 (1996) 125-132
- S.B. Wang, M. Soudi, L. Li ,Z.H. Zhu, Coal ash conversion into effective adsorbents for removal of heavy metals and dyes from wastewater. J Hazard Mater, 133 (2006) 243-251
- H. Trevino-Cordero, L.G. Juarez-Aguilar, D.I. Mendoza-Castillo, V. Hernandez-Montoya, A. Bonilla- Petriciolet ,M.A. Montes-Moran, Synthesis and adsorption properties of activated carbons from biomass of Prunus domestica and Jacaranda mimosifolia for the removal of heavy metals and dyes from water. Ind Crop Prod, 42 (2013) 315-323
- D. Claveau-Mallet, S. Wallace ,Y. Comeau, Removal of phosphorus, fluoride and metals from a gypsum mining leachate using steel slag filters. Water Res, 47 (2013) 1512-1520
- A. Witek-Krowiak, Application of beech sawdust for removal of heavy metals from water: biosorption and desorption studies. Eur J Wood Wood Prod, 71 (2013) 227-236
- T. Vander Hoogerstraete, S. Wellens, K. Verachtert ,K. Binnemans, Removal of transition metals from rare earths by solvent extraction with an undiluted phosphonium ionic liquid: separations relevant to rare-earth magnet recycling. Green Chem, 15 (2013) 919-927
- O. Sayar, M.M. Amini, H. Moghadamzadeh, O. Sadeghi ,S.J. Khan, Removal of heavy metals from industrial wastewaters using amine-functionalized nanoporous carbon as a novel sorbent. Microchim Acta, (2013) 227-233
- F.B. Liang, Y.L. Song, C.P. Huang, Y.X. Li ,B.H. Chen, Synthesis of Novel Lignin-Based Ion-Exchange Resin and Its Utilization in Heavy Metals Removal. Ind Eng Chem Res, 52 (2013) 1267-1274
- F.A. Harraz, O.E. Abdel-Salam, A.A. Mostafa, R.M. Mohamed ,M. Hanafy, Rapid synthesis of titania-silica nanoparticles photocatalyst by a modified sol-gel method for cyanide degradation and heavy metals removal. J Alloy Compd, 551 (2013) 1-7
- M. Ghorbani ,H. Eisazadeh, Removal of COD, color, anions and heavy metals from cotton textile wastewater by using polyaniline and polypyrrole nanocomposites coated on rice husk ash. Compos Part B- Eng, 45 (2013) 1-7
- Q. Wang, M.X. Song, X.M. Liu, A. Nasier ,W.Q. Zhu, Study of the Organic Soil Modified by Alkyl Quaternary Ammonium in Water Pollution Treatment. Asian J Chem, 24 (2012) 4365-4368
- V. Avramenko, S. Bratskaya, V. Zheleznov, I. Sheveleva, O. Voitenko ,V. Sergienko, Colloid stable sorbents for cesium removal: Preparation and application of latex particles functionalized with transition metals ferrocyanides. J Hazard Mater, 186 (2011) 1343-1350
- A. Zach-Maor, R. Semiat ,H. Shemer, Removal of heavy metals by immobilized magnetite nano-particles. Desalin Water Treat, 31 (2011) 64-70
- S.W. Kang, S.K. Kim, S.L. Yun, H.C. Oh ,J.H. Ahn, Removal of Particles and Dissolved Metals in Motorway Runoff by Filtration and Adsorption Using the Expanded Polypropylene Media. Mater Sci Forum, 620-622 (2009) 125-128
- W. Yantasee, R.D. Rutledge, W. Chouyyok, V. Sukwarotwat, G. Orr, C.L. Warner, M.G. Warner, G.E. Fryxell, R.J. Wiacek, C. Timchalk, R.S. Addleman, Functionalized Nanoporous Silica for the Removal of Heavy Metals from Biological Systems: Adsorption and Application. Acs Appl Mater Inter, 2 (2010) 2749
- T. Panadda, C. Worakarn, C. Saksit ,R. Chalerm, Removal of heavy metals from artificial metals contaminated water samples based on micelle-templated silica modified with pyoverdin I. J Environ Sci- China, 21 (2009) 1009-1016
- S.A. Abo-El-Enein, M.A. Eissa, A.A. Diafullah, M.A. Rizk ,F.M. Mohamed, Removal of some heavy metals ions from wastewater by copolymer of iron and aluminum impregnated with active silica derived from rice husk ash. J Hazard Mater, 172 (2009) 574-579
- Z.A. Al-Othman ,A.W. Apblett, Synthesis and evaluation of functionalized ordered mesoporous silica for the removal and separation of heavy metals from aqueous streams. Abstr Pap Am Chem S, 229 (2005) U706-U706
- R.I. Nooney, E. Maginn ,D. Moore, Synthesis and evaluation of functionalized ordered mesoporous silica spheres for the removal of heavy metals from aqueous streams and the separation of olefin-paraffin mixtures. Abstr Pap Am Chem S, 219 (2000) U321-U321
- W. Yantasee, Y.H. Lin, G.E. Fryxell, B.J. Busche ,J.C. Birnbaum, Removal of heavy metals from aqueous solution using novel nanoengineered sorbents: Self-assembled carbamoylphosphonic acids on mesoporous silica. Separ Sci Technol, 38 (2003) 3809-3825
- S. Kaneko, K. Tsukamoto ,F. Imoto, Removal of Heavy-Metals in Wastewater by Using Complex Oxides Gels .2. Adsorption and Elution of Chromium(Vi) on Coprecipitated Silica-Titania Gel. Nippon Kagaku Kaishi, (1979) 1250-1255
- Y.J. Liu ,Y.P. Zhang, Oxygen Sensing Properties of a Novel Ruthenium(II) Complex Containing Oxadiazole-functionalized 1, 10-Phenanthroline Derivative Ligand Incorporated in Mesoporous Silica MCM-41. Z Anorg Allg Chem, 639 (2013) 533-537
- N. Leventis, A.M. Rawashdeh, I.A. Elder, J.H. Yang, A. Dass ,C. Sotiriou-Leventis, Silica aerogels doped with Ru(II) tris(1,10-phenanthroline)-electron acceptor DYADS: Improving the dynamic range, sensitivity and response time of sol-gel based optical oxygen sensors. Abstr Pap Am Chem S, 227 (2004) U840-U840
- B.J. Smith ,T.D.P. Stack, Controlled loadings of 1,10-phenanthroline on mesoporous silica: Metal complexation, spectroscopic characterization, and oxidative catalysis. Abstr Pap Am Chem S, 242 (2011)
- V. Divya, S. Biju, R.L. Varma ,M.L.P. Reddy, Highly efficient visible light sensitized red emission from europium tris[1-(4-biphenoyl)-3-(2-fluoroyl)propanedione](1,10-phenanthroline) complex grafted on silica nanoparticles. J Mater Chem, 20 (2010) 5220-5227
- B. Puzio, B. Mikula ,B. Feist, Preconcentration of Cd(II) and Cu(II) by solid phase extraction on cyanopropyl modified silica columns using 1,10-phenanthroline as the complexing agent. Microchim Acta, (2008) 197-201
- E.A. Ferreiro ,S.G. de Bussetti, Apparent and partial specific adsorption of 1,10-phenanthroline on mixtures of Ca-montmorillonite, activated carbon, and silica gel. J Colloid Interf Sci, 292 (2005) 54-62
- C. Ye, S.X. Jun, C.W. Min, Y.Y. Ning ,C. Dan, Preparation and luminescence properties of the europium complex with alpha-naphthylacetic acid and 1,10-phenanthroline incorporated in silica matrix by sol-gel method. Mater Chem Phys, 80 (2003) 371-375
- C.M. Taylor, S.P. Watton, P.A. Bryngelson ,M.J. Maroney, Inner-sphere complexation of cobalt(II) 2,9- dimethyl-1,10-phenanthroline ([Co(neo)](2+)) with commercial and sol-gel derived silica gel surfaces. Inorg Chem, 42 (2003) 312-320
- M. Shamsipur, M. Javanbakht, Z. Ghasemi, M.R. Ganjali, V. Lippolis ,A. Garau, Separation, preconcentration and determination of trace amounts of silver ion in aqueous samples using octadecyl silica membrane disks modified with some recently synthesized mixed aza-thioether crowns containing 1,10- phenanthroline sub-unit and atomic absorption spectrometry. Sep Purif Technol, 28 (2002) 141-147
- G.M. Kloster ,S.P. Watton, Oxidation of immobilized iron(II)-1,10-phenanthroline complexes by cerium(IV): a probe into the site accessibility of metal complexes covalently attached to silica sol-gels. Inorg Chim Acta, 297 (2000) 156-161
- A.O. Eseola, W.H. Sun, W. Li ,J.A.O. Woods, Syntheses of new imidazole ligand series and evaluation of , 2-and 4,5-imidazole substituent electronic and steric effects on N-donor strengths. J Mol Struct, 984 (2010) 117-124
- J.Z. Zhao, S.M. Ji, H.M. Guo, X.L. Yuan, X.H. Li, H.D. Ding, P. Gao, C.X. Zhao, W.T. Wu, W.H. Wu, A Highly Selective OFF-ON Red-Emitting Phosphorescent Thiol Probe with Large Stokes Shift and Long Luminescent Lifetime. Org Lett, 12 (2010) 2876-2879
- K. Kawamura, T. Nakai, K. Ikoma ,H. Hisamoto, High-throughput Ru(III) analysis using the hydrothermal flow reactor-mediated FIA by the extreme acceleration of Ru(III) complexation with 1,10-phenanthroline. Talanta, 99 (2012) 415-419
- X.L. Zhang ,K. Cheng, Synthesis, Crystal Structure, and DNA-Binding Property of Ruthenium (IV) Complex With 2,5-dimercapto-1,3,4-thiadiazole and 1,10-phenanthroline. Synth React Inorg M, 42 (2012)
- C.J. Xu ,Y.Q. Shi, Synthesis and Luminescence Properties of a Reactive Ternary Europium Complex Containing 1,10-Phenanthroline. Spectrosc Spect Anal, 33 (2013) 116-119
- H.Y. Zhao, J.J. Ma ,F.L. Yang, Synthesis, Crystal Structure and the Interaction with DNA of the Fe(II) Complex with Tris-(1,10-phenanthroline-5,6-dione). Chinese J Inorg Chem, 28 (2012) 2468-2472
- S. Mistri, S. Garcia-Granda, E. Zangrando ,S.C. Manna, Fluorescent bis-chelated-1,10-phenanthroline- azido-copper(II) complex for selective sensing of aniline. Polyhedron, 50 (2013) 333-338
- W.X. Li, Y.S. Zheng, L. Saiji, Y.J. Li, J. Zhang ,B.Y. Ao, Fluorescence enhancement of terbium(III) perchlorate by 1,10-phenanthroline on acetophenonylcarboxymethyl sulfoxide complex and luminescence mechanism. J Lumin, 134 (2013) 847-852
- R.H. Zheng, H.J. Jiang, Q. Shen ,H.C. Guo, Synthesis and Magnetic Properties of Poly(Schiff base) Complex Containing 4,7-Disubstituted-1,10-phenanthroline. Adv Mater Res-Switz, 399-401 (2012) 1043
- S.P. Yang, L.J. Han, Y. Pan, Z.M. Wu, X.R. He ,L.J. Chen, Synthesis, Crystal Structure and Antibacterial Activity of A Bismuth(III) Complex [Bi-2(PPA)(6)center dot(Phen)(2)] with Phenylacetic Acid and 1,10- Phenanthroline. Acta Chim Sinica, 70 (2012) 519-524
- X.J. Xu, X.Y. Wu, W.Z. Xu, W. Zhou ,Y.S. Yan, Hydrothermal Synthesis, Crystal Structure and Thermal Stability of a Supramolecular Lead(II) Complex with 4-Nitrobenzoic Acid and 1,10-Phenanthroline. Chinese J Struc Chem, 31 (2012) 639-644
- X.Y. Wu, J.F. Liu ,G.L. Zhao, Synthesis, Crystal Structure, Luminescence Property and DNA-Binding of a Manganese(II) Complex with p-Hydroxyphenylacetic Acid and 1,10-Phenanthroline. Chinese J Inorg Chem, 28 (2012) 1190-1194
- R.X. Wang, S.W. Wang ,Y.J. Qi, Hydrothermal Synthesis, Crystal Structure and Properties of Cobalt Complex Based on 1,10-Phenanthroline and 1,3,5-Benzenetricarboxylate Ligands. Chinese J Inorg Chem, (2012) 536-540
- T. Peppel, P. Thiele ,M. Kockerling, Low-Melting Salts with the [Cr-III(NCS)(4)(1,10-Phenanthroline)](-) Complex Anion: Syntheses, Properties, and Structures. Russ J Coord Chem+, 38 (2012) 207-218
- N. Shahabadi ,L. Nemati, DNA Interaction Studies of a Platinum(II) Complex Containing L-Histidine and ,10-Phenanthroline Ligands. DNA Cell Biol, 31 (2012) 883-890
- T.N. Fedotova, Z.V. Dobrokhotova, P.S. Koroteev, G.N. Kuznetsova, G.G. Aleksandrov, V.K. Ivanov, E.F. Zharikova, I.L. Eremenko, Reaction of the Pt-III complex, [Pt-2(mu-NHCOMe)(4)Cl-2], with 1,10- phenanthroline and solid-state thermolysis of 1,10-phenanthroline-containing platinum blues. Russ Chem B+, 61 (2012) 230-239
- S. Niroomand, M. Khorasani-Motlagh, M. Noroozifar ,A. Moodi, Spectroscopic studies on the binding of holmium-1,10-phenanthroline complex with DNA. J Photoch Photobio B, 117 (2012) 132-139
- Z. Naseri, A. Hakimi, S. Shirvani-Arani, A.R. Jalilian, A. Bahrami-Samani, M.N. Kharat, M. Ghannadi- Maragheh, Preparation and quality control of Sm-153-[tris(1,10-phenanthroline) samarium (III)] complex. Iran J Radiat Res, 10 (2012) 59-62
- N. Shahabadi, S. Kashanian ,Z. Ahmadipour, DNA Binding and Gel Electrophoresis Studies of a New Silver( I) Complex Containing 2,9-Dimethyl-1,10-Phenanthroline Ligands. DNA Cell Biol, 30 (2011) 187
- H.F. Chen, M.J. Zhang, M.S. Wang, W.B. Yang, X.G. Guo ,C.Z. Lu, Synthesis, structure, photoluminescence and theoretical calculations on a novel tetranuclear Cd(II) complex based on (2,3-f)- pyrazino(1,10) phenanthroline-2,3-dicarboxylic acid. Inorg Chem Commun, 23 (2012) 123-126
- E. Yamaguchi, F. Shibahara ,T. Murai, Direct Sequential C3 and C1 Arylation Reaction of Imidazo[1,5- a]pyridine Catalyzed by a 1,10-Phenanthroline-Palladium Complex. Chem Lett, 40 (2011) 939-940
- A.N. Wein, A.T. Stockhausen, K.I. Hardcastle, M.R. Saadein, S.F. Peng, D.S. Wang, D.M. Shin, Z. Chen, J.F. Eichler, Tumor cytotoxicity of 5,6-dimethyl-1,10-phenanthroline and its corresponding gold(III) complex. J Inorg Biochem, 105 (2011) 663-668
- X.S. Tai, Synthesis, Structural Characterization and Luminescence Property of Ring-like Zinc(II) Complex of N-paratoluensulfonyl-glycine Acid and 1,10-Phenanthroline. Advanced Research on Intelligent Materials and Mechanical Engineering, 321 (2011) 127-130
- B. Machura, M. Wolff, M. Jaworska, P. Lodowski, E. Benoist, C. Carrayon, N. Saffon, R. Kruszynski, Z. Mazurak, Rhenium(I) carbonyl complex of 4,7-diphenyl-1,10-phenanthroline-Spectroscopic properties, X- Ray structure, theoretical studies of ground and excited electronic states. J Organomet Chem, 696 (2011)
- G.N. Liu, G.C. Guo, M.J. Zhang, J.S. Guo, H.Y. Zeng ,J.S. Huang, Different Effects of a Cotemplate and (Transition-Metal)-(1,10-Phenanthroline)(m)](2+) (m=1-3) Complex Cations on the Self-assembly of a Series of Hybrid Selenidostannates Showing Combined Optical Properties of Organic and Inorganic Components. Inorg Chem, 50 (2011) 9660-9669