References

1. A.A. Farghali, M. Bahgat, A. Enaiet Allah, M.H. Khedr, Adsorption of Pb(II) ions from aqueous solutions using copper oxide nanostructures, Beni-Suef Univ. J. Basic Appl. Sci., 2 (2013) 61–71.
2. Y. Huang, S. Li, J. Chen, X. Zhang, Y. Chen, Adsorption of Pb (II) on mesoporous activated carbons fabricated from water hyacinth using H3PO4 activation: adsorption capacity, kinetic and isotherm studies, Appl. Surf. Sci., 293 (2014) 160–168.
3. J.M. Dias, M.C.M. Alvim-Ferraz, M.F. Almeida, J. Rivera-Utrilla, M. Sánchez-Polo, Waste materials for activated carbon preparation and its use in aqueous-phase treatment: A review, J. Environ. Manage., 85 (2007) 833–846.
4. M. Bhaumik, A. Maity, V.V. Srinivasu, M.S. Onyango, Enhanced removal of Cr(VI) from aqueous solution using polypyrrole/Fe₃O₄ magnetic nanocomposite, J. Hazard. Mater., 190 (2011) 381–390.
5. J. Salimi, B. Kakavandi, A.A. Babaei, A. Takdastan, N. Alavi, A. Neisi, B. Ayoubi-Feiz, Modeling and optimization of nonylphenol removal from contaminated water media using a magnetic recoverable composite by artificial neural networks, Water Sci. Technol., 75 (2017) 1761–1775.
6. A.A. Babaei, B. Kakavandi, M. Rafiee, F. Kalantarhormizi, I. Purkaram, E. Ahmadi, S. Esmaeili, Comparative treatment of textile wastewater by adsorption, Fenton, UV-Fenton and US-Fenton using magnetic nanoparticles-functionalized carbon (MNPs@C), J. Ind. Eng. Chem., 56 (2017) 163–174.
7. E.-J. Woo, H.-S. Kwon, C.-H. Lee, Preparation of nano-magnetite impregnated mesocellular foam composite with a Cu ligand for His-tagged enzyme immobilization, Chem. Eng. J., 274 (2015) 1–8.
8. Z.M. Saiyed, M. Parasramka, S.D. Telang, C.N. Ramchand, Extraction of DNA from agarose gel using magnetic nanoparticles (magnetite or Fe₃O₄), Anal. Biochem., 363 (2007) 288–290.
9. J.-M. Shen, F.-Y. Gao, T. Yin, H.-X. Zhang, M. Ma, Y.-J. Yang, F. Yue, cRGD-functionalized polymeric magnetic nanoparticles as a dual-drug delivery system for safe targeted cancer therapy, Pharmacol. Res., 70 (2013) 102–115.
10. C.-C. Liu, S. Sadhasivam, S. Savitha, F.-H. Lin, Fabrication of multiwalled carbon nanotubes–magnetite nanocomposite as an effective ultra-sensing platform for the early screening of nasopharyngeal carcinoma by luminescence immunoassay, Talanta, 122 (2014) 195–200.
11. M. Usman, P. Faure, K. Hanna, M. Abdelmoula, C. Ruby, Application of magnetite catalyzed chemical oxidation (Fenton-like and persulfate) for the remediation of oil hydrocarbon contamination, Fuel, 96 (2012) 270–276.
12. M. Munoz, Z.M. de Pedro, J.A. Casas, J.J. Rodriguez, Preparation of magnetite-based catalysts and their application in heterogeneous Fenton oxidation – A review, Appl. Catal., B: Environ., 176–177 (2015) 249–265.
13. E. Ranjith Kumar, R. Jayaprakash, G. Sarala Devi, P. Siva Prasada Reddy, Synthesis of Mn substituted CuFe₂O₄ nanoparticles for liquefied petroleum gas sensor applications, Sens. Actuators, B: Chem., 191 (2014) 186–191.
14. D. Ramimoghadam, S. Bagheri, S.B.A. Hamid, Progress in electrochemical synthesis of magnetic iron oxide nanoparticles, J. Magn. Magn. Mater., 368 (2014) 207–229.
15. X.S. Wang, L. Zhu, H.J. Lu, Surface chemical properties and adsorption of Cu (II) on nanoscale magnetite in aqueous solutions, Desalination, 276 (2011) 154–160.
16. L. Rahmanzadeh, M. Ghorbani, M. Jahanshahi, Synthesis and characterization of Fe₃O₄@polyrhodanine nanocomposite with core–shell morphology, Adv. Polym. Tech., 33 (2014) 1–5.
17. E. Karaca, M. Şatır, S. Kazan, M. Açıkgöz, E. Öztürk, G. Gürdağ, D. Ulutaş, Synthesis, characterization and magnetic properties of Fe₃O₄ doped chitosan polymer, J. Magn. Magn. Mater., 373 (2015) 53–59.
18. D. Aradilla, F. Estrany, F. Casellas, J.I. Iribarren, C. Alemán, All-polythiophene rechargeable batteries, Org. Electron., 15 (2014) 40–46.
19. T. Vu Quoc, T. Duong Ngoc, H. Duong Ngoc, Polypyrrole/Al₂O₃ nanocomposites: preparation, characterisation and electromagnetic shielding properties, J. Exp. Nanosci., 4 (2009) 213–219.
20. H. Qin, A. Kulkarni, H. Zhang, H. Kim, D. Jiang, T. Kim, Polypyrrole thin film fiber optic chemical sensor for detection of VOCs, Sens. Actuators, B: Chem., 158 (2011) 223–228.
21. L. Sicot, C. Fiorini, A. Lorin, P. Raimond, C. Sentein, J.-M. Nunzi, Improvement of the photovoltaic properties of polythiophene-based cells, Sol. Energy Mater. Sol. Cells, 63 (2000) 49–60.
22. Y. Gupta, K. Hellgardt, R.J. Wakeman, Enhanced permeability of polyaniline based nano-membranes for gas separation, J. Membr. Sci., 282 (2006) 60–70.
23. Q. Xu, J.-J. Zhu, X.-Y. Hu, Ordered mesoporous polyaniline film as a new matrix for enzyme immobilization and biosensor construction, Anal. Chim. Acta, 597 (2007) 151–156.
24. F.X. Perrin, T.A. Phan, D.L. Nguyen, Preparation and characterization of polyaniline in reversed micelles of decylphosphonic acid for active corrosion protection coatings, Eur. Polym. J., 66 (2015) 253–265.
25. M. Ghorbani, H. Esfandian, N. Taghipour, R. Katal, Application of polyaniline and polypyrrole composites for paper mill wastewater treatment, Desalination, 263 (2010) 279–284.
26. S.W. Phang, M. Tadokoro, J. Watanabe, N. Kuramoto, Microwave absorption behaviors of polyaniline nanocomposites containing TiO2 nanoparticles, Curr. Appl. Phys., 8 (2008) 391–394.
27. F. Entezari Juybari, A. Kamran-Pirzaman, M. Ghorbani, Chemical modification of magnetite with polythiophene and characterization of formed core-shell nanocomposite, Inorg. Nano-Met. Chem., 47 (2017) 121–126.
28. B. Delley, From molecules to solids with the DMol3 approach, J. Chem. Phys., 113 (2000) 7756–7764.
29. J.P. Perdew, K. Burke, M. Ernzerhof, Generalized gradient approximation made simple, Phys. Rev. Lett., 77 (1996) 3865–3868.
30. B. Delley, A scattering theoretic approach to scalar relativistic corrections on bonding, Int. J. Quantum Chem., 69 (1998) 423–433.
31. D. Farmanzadeh, L. Tabari, DFT study of adsorption of picric acid molecule on the surface of single-walled ZnO nanotube; as potential new chemical sensor, Appl. Surf. Sci., 324 (2015) 864–870.
32. J. Casado, V. Hernández, S. Hotta, J.T. López Navarrete, Vibrational spectra of charged defects in a series of α, α'-dimethyl end-capped oligothiophenes induced by chemical doping with iodine, J. Chem. Phys., 109 (1998) 10419–10429.
33. T.P. Kaloni, G. Schreckenbach, M.S. Freund, Structural and electronic properties of pristine and doped polythiophene: periodic versus molecular calculations, J. Chem. Phys. C, 119 (2015) 3979–3989.
34. S.R. Chowdhury, E.K. Yanful, Arsenic and chromium removal by mixed magnetite–maghemite nanoparticles and the effect of phosphate on removal, J. Environ. Manage., 91 (2010) 2238–2247.
35. F. Zhao, W.Z. Tang, D. Zhao, Y. Meng, D. Yin, M. Sillanpää, Adsorption kinetics, isotherms and mechanisms of Cd(II), Pb(II), Co(II) and Ni(II) by a modified magnetic polyacrylamide microcomposite adsorbent, J. Water Process. Eng., 4 (2014) 47–57.
36. N.N. Nassar, Rapid removal and recovery of Pb (II) from wastewater by magnetic nanoadsorbents, J. Hazard. Mater., 184 (2010) 538–546.
37. Y.S. Ho, G. McKay, Pseudo-second order model for sorption processes, Process. Biochem., 34 (1999) 451–465.
38. M. Ahmadi, H. Rahmani, B. Ramavandi, B. Kakavandi, Removal of nitrate from aqueous solution using activated carbon modified with Fenton reagents, Desal. Water Treat., 76 (2017) 265–275.
39. K.Y. Foo, B.H. Hameed, Insights into the modeling of adsorption isotherm systems, Chem. Eng. J., 156 (2010) 2–10.
40. Y.S. Ho, J.F. Porter, G. McKay, Equilibrium isotherm studies for the sorption of divalent metal ions onto peat: copper, nickel and lead single component systems, Water, Air, Soil Pollut., 141 (2002) 1–33.
41. H. Shahbeig, N. Bagheri, S.A. Ghorbanian, A. Hallajisani, S. Poorkarimi, A new adsorption isotherm model of aqueous solutions on granular activated carbon, World J. Modell. Simul., 9 (2013) 243–254.
42. N. Kumara, N. Hamdan, M.I. Petra, K.U. Tennakoon, P. Ekanayake, Equilibrium isotherm studies of adsorption of pigments extracted from kuduk-kuduk (Melastoma malabathricum L.) pulp onto TiO₂ nanoparticles, J. Chem., 2014 (2014).
43. M. Kumari, C.U. Pittman Jr, D. Mohan, Heavy metals [chromium (VI) and lead (II)] removal from water using mesoporous magnetite (Fe₃O₄) nanospheres, J. Colloid Interface Sci., 442 (2015) 120–132.
44. H. Yousefzadeh, A.A. Salarian, H. Sid Kalal, Study of Pb (II) adsorption from aqueous solutions by TiO₂ functionalized with hydroxide ethyl aniline (PHEA/n-TiO₂), J. Mol. Liq., 263 (2018) 294–302.
45. A.Z.M. Badruddoza, Z.B.Z. Shawon, W.J.D. Tay, K. Hidajat, M.S. Uddin, Fe₃O₄/cyclodextrin polymer nanocomposites for selective heavy metals removal from industrial wastewater, Carbohydr. Polym., 91 (2013) 322–332.
46. M. Mozaffari, M.R.S. Emami, E. Binaeian, A novel thiosemicarbazide modified chitosan (TSFCS) for efficiency removal of Pb (II) and methyl red from aqueous solution, Int. J. Biol. Macromol. (2018).
47. C.M. Futalan, C.-C. Kan, M.L. Dalida, K.-J. Hsien, C. Pascua, M.-W. Wan, Comparative and competitive adsorption of copper, lead, and nickel using chitosan immobilized on bentonite, Carbohydr. Polym., 83 (2011) 528–536.
48. S. Cataldo, A. Gianguzza, D. Milea, N. Muratore, A. Pettignano, Pb(II) adsorption by a novel activated carbon - alginate composite material. A kinetic and equilibrium study, Int. J. Biol. Macromol., 92 (2016) 769–778.
49. A. Idris, N.S.M. Ismail, N. Hassan, E. Misran, A.-F. Ngomsik, Synthesis of magnetic alginate beads based on maghemite nanoparticles for Pb(II) removal in aqueous solution, J. Ind. Eng. Chem., 18 (2012) 1582–1589.
50. B. Kakavandi, A. Jonidi Jafari, R. Rezaei Kalantary, S. Nasseri, A. Esrafili, A. Gholizadeh, A. Azari, Simultaneous adsorption of lead and aniline onto magnetically recoverable carbon: Optimization, modeling and mechanism, J. Chem. Technol. Biotechnol., 91 (2016) 3000–3010.
51. 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, Composites Part B: Eng., 45 (2013) 1–7.
52. P.K. Boruah, D.J. Borah, J. Handique, P. Sharma, P. Sengupta, M.R. Das, Facile synthesis and characterization of Fe3O4 nanopowder and Fe3O4/reduced graphene oxide nanocomposite for methyl blue adsorption: A comparative study, J. Environ. Chem. Eng., 3 (2015) 1974–1985.
53. X. He, R. Che, Y. Wang, Y. Li, L. Wan, X. Xiang, Core–nanoshell magnetic composite material for adsorption of Pb(II) in wastewater, J. Environ. Chem. Eng., 3 (2015) 1720–1724.
54. É.G. Bajnóczi, I. Pálinkó, T. Körtvélyesi, S. Bálint, I. Bakó, P. Sipos, I. Persson, Speciation and the structure of lead(II) in hyper-alkaline aqueous solution, Dalton Trans., 43 (2014) 17539–17543.