References

  1. E.Z. Jahromi, A. Bidari, Y. Assadi, M.R.M. Hosseini, M.R. Jamali, Dispersive liquid–liquid micro extraction combined with graphite furnace atomic absorption spectrometry ultratrace determination of cadmium in water samples, Anal. Chim Acta, 585 (2007) 305–311.
  2. M. Chamsaz, A. Atarodi, M. Eftekhari, S. Asadpour, M. Adibi, Vortex-assisted ionic liquid micro extraction coupled to flame atomic absorption spectrometry for determination of trace levels of cadmium in real samples, J. Adv. Res., 4 (2013) 35–41.
  3. I.A.A. Mekkawy, U.M.M. Ekbal, T. Wassif, M. Naguib, Effects of cadmium on some haematological and biochemical characteristics of Oreochromis niloticus (Linnaeus, 1758) dietary supplemented with tomato paste and vitamin E, Fish Physiol. Biochem., 37 (2011) 71–84.
  4. Q. Tang, X. Tang, M. Hu, Z. Li, Y. Chen, P. Lou, Removal of Cd(II) from aqueous solution with activated Firmiana Simplex leaf: Behaviors and affecting factors, J. Hazard. Mater., 179 (2010) 95–103.
  5. G. Kazi, A.R. Memon, H.I. Afridi, M.K. Jamali, M.B. Arain, N. Jalbani, R.A. Sarfrz, Determination of cadmium in whole blood and scalp hair samples of Pakistani male lung cancer patients by electro thermal atomic absorption spectrometer, Sci. Total Environ., 389 (2008) 270–276.
  6. I. Lopez-Garcıa, Y. Vicente-Martınez, M.H. Cordoba, Determination of lead and cadmium using an ionic liquid and dispersive liquid-liquid micro extraction followed by electro thermal atomic absorption spectrometry, Talanta, 110 (2013) 46–52.
  7. H.R. Pohl, H.G. Abadin, J.F. Risher, in: A. Sigel, H. Sigel, R.K.O. Sigel (Eds.), Neurodegenerative Diseases and Metal Ions: Metal Ions in Life Sciences, vol. 1, Wiley, Chichester, 2006, pp. 397–408.
  8. D. Mohan, K.P. Singh, Single- and multi-component adsorption of cadmium and zinc using activated carbon derived from bagasse-an agricultural waste, Water. Res., 36 (2002) 2304–2318.
  9. O.E. Orisakwe, C.A. Maduawguna, Lead levels in paint flakes from buildings in Nigeria: a preliminary study, Toxicol. Ind. Health, 24 (2008) 539–542.
  10. M. Soylak, E. Yilmaz, Ionic liquid dispersive liquid–liquid micro extraction of lead as pyrrolidinedithiocarbamate chelate prior to its flame atomic absorption spectrometric determination, Desalination, 275 (2011) 297–301.
  11. J.L. Manzoori, M. Amjadi, J. Abulhassani, Ultra-trace determination of lead in water and food samples by using ionic liquid- based single drop micro extraction-electro thermal atomic absorption spectrometry, Anal. Chim. Acta, 644 (2009) 48–52.
  12. P.A. Meyer, M.J. Brown, H. Falk, Global approach to reducing lead exposure and poisoning, Mutat. Res., 659 (2008) 166–175.
  13. I. Al-Saleh, S. Al-Enazi, N. Shinwari, Assessment of lead in cosmetic products, Regul. Toxicol. Pharm., 54 (2009) 105–113.
  14. M.A. Gondal, M.M. Nasr, M.M. Ahmed, Z.H. Yamani, M.S. Alsalhi, Detection of lead in paint samples synthesized locally using laser-induced breakdown spectroscopy, J. Environ. Sci. Health, A., 46 (2011) 42–49.
  15. M. Soylak, A. Uzun, L. Elci, Sorbent extraction of copper, lead, nickel and cadmium ions in dialysis concentrates before their atomic absorption spectrometric determinations, Trace Elem. Electroly., 19 (2002) 15–19.
  16. V.A. Lemos, L.A. Oliveira, Ultrasound-assisted temperature- controlled ionic liquid micro extraction for the pre-concentration and determination of cadmium content in mussel samples, Food Control, 50 (2015) 901–906.
  17. N. Ashouri, A. Mohammadi, R. Hajiaghaee, M. Shekarchi, M.R. Khoshayand, Preparation of a new nano particle Cd(II)-imprinted polymer and its application for selective separation of cadmium (II) ions from aqueous solutions and determination via inductively coupled plasma optical emission spectrometry, Desal. Water Treat., 57 (2016) 14280–14289.
  18. D.J. Butcher, Advances in electro thermal atomization atomic absorption spectrometry: instrumentation, methods, and applications, Appl. Spectrosc. Rev., 41 (2006) 15–34.
  19. S.A.R. Shahamirifard, M. Ghaedi, M.R. Rahimi, S. Hajati, M. Montazerozohori, M. Soylak, Simultaneous extraction and preconcentration of Cu2+, Ni2+ and Zn2+ ions using Ag nanoparticle-loaded activated carbon: Response surface methodology, Adv. Powder Technol., 27 (2016) 426–435.
  20. A.N. Anthemidis, K.-I.G. Ioannou, On-line sequential injection dispersive liquid–liquid micro extraction system for flame atomic absorption spectrometric determination of copper and lead in water samples, Talanta, 79 (2009) 86–91.
  21. S.R. Yousefi, F. Shemirani, Development of a robust ionic liquid based dispersive liquid–liquid micro extraction against high concentration of salt for pre-concentration of trace metals in saline aqueous samples: Application to the determination of Pb and Cd, Anal Chim Acta, 669 (2010) 25–31.
  22. S.S. Swain, B. Nayak, N. Devi, S. Das, N. Swain, Liquid liquid extraction of cadmium(II) from sulfate medium using phosphonium and ammonium based ionic liquids diluted in kerosene, Hydrometallurgy, 162 (2016) 63–70.
  23. Z. Bahadır, V.N. Bulut, D. Ozdes, C. Duran, H. Bektas, M. Soylak, Separation and pre-concentration of lead, chromium and copper by using with the combination coprecipitation-flame atomic absorption spectrometric determination, J. Ind. Eng. Chem., 20 (2014) 1030–1034.
  24. S. Tokalioglu, T. Oymak, S. Kartal, Coprecipitation of lead and cadmium using copper(II) mercaptobenzothiazole prior to flame atomic absorption spectrometric determination, Microchim. Acta., 159 (2007) 133–139.
  25. C. Duran, V.N. Bulut, M. Soylak, L. Elci, H.B. Sentürk, M. Tüfekci, Solid-phase extraction of Mn(II), Co(II), Ni(II), Cu(II), Cd(II) and Pb(II) ions from environmental samples by flame atomic absorption spectrometry (FAAS), J. Hazard. Mater., 146 (2007) 347–355.
  26. M. Ghaedi, K. Niknam, A. Shokrollahi, E. Niknam, H.R. Rajabi, M. Soylak, Flame atomic absorption spectrometric determination of trace amounts of heavy metal ions after solid phase extraction using modified sodium dodecyl sulfate coated on alumina, J. Hazard. Mater., 115 (2008) 121–127.
  27. S. Nekouei, F. Nekouei, I. Tyagi, S. Agarwal, V.K. Gupta, Mixed cloud point/solid phase extraction of lead(II) and cadmium( II) in water samples using modified-ZnO nano powders, Process Saf. Environ. Prot., 99 (2016) 175–185.
  28. W.I. Mortada, M.M. Hassanien, A.F. Donia A.A. Shokeir, Application of cloud point extraction for cadmium in biological samples of occupationally exposed workers: relation between cadmium exposure and renal lesion, Biol. Trace Elem. Res., 168 (2015) 303–310.
  29. P. Samaddar, K. Sen, Cloud point extraction: A sustainable method of elemental preconcentration and speciation, J. Ind. Eng. Chem., 20 (2014) 1209–1219.
  30. A.A. Gouda, A.S. Amin, Cloud-point extraction, preconcentration and spectrophotometric determination of trace quantities of copper in food, water and biological samples, Spectrochim. Acta Part A Mol. Biomol. Spectrosc., 120 (2014) 88–96.
  31. Y. Yamini. M. Faraji, S. Shariati, R. Hassani, M. Ghambarian, On-line metals preconcentration and simultaneous determination using cloud point extraction and inductively coupled plasma optical emission spectrometry in water samples, Anal. Chim. Acta, 612 (2008) 144–151.
  32. H. Bektas, Ş. Ceylan, N. Demirbas, Ş. Alpay-Karaoğlu, B.B. Sökmen, Antimicrobial and antiurease activities of newly synthesized morpholine derivatives containing an azole nucleus, Med. Chem. Res., 22 (2013) 3629–3639.
  33. C. Duran, D. Ozdes, D. Sahin, V.N. Bulut, A. Gundogdu, M. Soylak, Preconcentration of Cd(II) and Cu(II) ions by coprecipitation without any carrier element in some food and water samples, Microchem. J., 98 (2011) 317–322.
  34. L. Kocúrová, I.S. Balogh, V. Andruch, Dispersive liquid-phase microextraction procedure for spectrometric determination of cadmium, Microchem. J., 107 (2013) 3–9.
  35. N. Altunay, R. Gürkan, A new cloud point extraction procedure for determination of in organic antimony species in beverages and biological samples by flame atomic absorption spectrometry, Food Chem., 175 (2015) 507–517.
  36. H.İ. Ulusoy, R. Gürkan, Ü. Aksoy, M. Akçay, Development of a cloud point extraction and preconcentration method for determination of trace aluminum in mineral waters by FAAS, Microchem. J., 99 (2011) 76–81.
  37. M. Khan, T.G. Kazi, H.I. Afridi, M. Bilal, A. Akhtar, N. Ullah, S. Khan, S. Talpur, Application of ultrasonically modified cloud point extraction method for simultaneous enrichment of cadmium and lead in sera of different types of gallstone patients, Ultrason. Sonochem., 39 (2017) 313–320.
  38. M. Bilal, T.G. Kazi, H.I. Afridi, M.B Arain, J.A. Baig, M. Khan, N. Khan, Application of conventional and modified cloud point extraction for simultaneous enrichment of cadmium, lead and copper in lake water and fish muscles, J. Ind. Eng. Chem., 40 (2016) 137–144.
  39. N. Jalbani, M. Soylak, Preconcentration/separation of lead at trace level from water samples by mixed micelle cloud point extraction, J. Ind. Eng. Chem., 29 (2015) 48–51.
  40. D. Citak, M. Tuzen, A novel preconcentration procedure using cloud point extraction for determination of lead, cobalt and copper in water and food samples using flame atomic absorption spectrometry, Food Chem Toxicol., 48 (2010) 1399–1404.
  41. J.L. Manzoori, A. Bavili-Tabrizi, Cloud point preconcentration and flame atomic absorption spectrometric determination of Cd and Pb in human hair, Anal. Chim Acta, 470 (2002) 215–221.
  42. Naeemullah, T. Gul Kazi, M. Tuzen, Development of novel simultaneous single step and multistep cloud point extraction method for silver, cadmium and nickel in water samples, J. Ind. Eng. Chem., 35 (2016) 93–98.
  43. E.L. Silva, P.S. Roldan, Simultaneous flow injection preconcentration of lead and cadmium using cloud point extraction and determination by atomic absorption spectrometry, J. Hazard. Mater., 161 (2009) 142–147.
  44. N. Dallali, M.M. Zahedi, Y. Yamini, Simultaneous cloud point extraction and determination of Zn Co, Ni and Pb by flame atomic absorption spectrometry, using 2 guanidinobenzimidazole as the complexing agent, Sci. Iran, 14 (2007) 291–296.
  45. S. Candir, I. Narin, M. Soylak, Ligandless cloud point extraction of Cr(III), Pb(II), Cu(II), Ni(II), Bi(III), and Cd(II) ions in environmental samples with Tween 80 and flame atomic absorption spectrometric determination, Talanta, 77 (2008) 289–293.