References

1. M. Hutton, C. Symon, The quantities of cadmium, lead, mercury and arsenic entering the U.K. environment from human activities, Sci. Total. Environ., 57 (1986) 129–150.
2. B. Volesky, Detoxification of metal-bearing effluents: biosorption for the next century, Hydrometallurgy, 59 (2001) 203–216.
3. K. Kadirvelu, K. Thamaraiselvi, C. Namasivayam, Removal of heavy metals from industrial wastewaters by adsorption onto activated carbon prepared from an agricultural solid waste, Bioresour. Technol., 76 (2001) 63–65.
4. T.M. Al-Bayati, Removal of aniline and nitro-substituted aniline from wastewater by particulate nanoporous MCM-48, Particul. Sci. Technol., 32 (2014) 616–623.
5. M.M. Tehrani, S. Abbasizadeh, A. Alamdari, S.E. Mousavi, Prediction of simultaneous sorption of copper(II), cobalt(II) and zinc(II) contaminants from water systems by a novel multifunctionalized zirconia nanofiber, Desal. Wat. Treat., 62 (2017) 403–417.
6. T.M. Albayati, A.A. Sabri, R.A. Alazawi, Separation of Methylene Blue as pollutant of water by SBA-15 in a fixed-bed column, Arab. J. Sci. Eng., 41 (2016) 2409–2415.
7. V. Manu, H. Mody, H. Bajaj, R. Jasra, Adsorption of Cu²⁺ on amino functionalized silica gel with different loading, Ind. Eng. Chem. Res., 48 (2009) 8954–8960.
8. G. Ramakrishna, M. Susmita, Application of response surface methodology for optimization of Cr (III) and Cr (VI) adsorption on commercial activated carbons, Res. J. Chem. Sci., 2 (2012) 40–48.
9. Y. Ho, Removal of copper ions from aqueous solution by tree fern, Water. Res., 37 (2003) 2323–2330.
10. Q. Feng, Q. Lin, F. Gong, S. Sugita, M. Shoya, Adsorption of lead and mercury by rice husk ash, J. Colloid. Interface. Sci., 278 (2004) 1–8.
11. M.A. Barakat, Adsorption behavior of copper and cyanide ions at TiO₂–solution interface, J. Colloid. Interface. Sci., 291 (2005) 345–352.
12. S. Wang, H. Wu, Environmental-benign utilization of fly ash as low-cost adsorbents, J. Hazard. Mater., 136 (2006) 482–501.
13. A. Bulut, Z. Tez, Removal of heavy metals from aqueous solution by sawdust adsorption, J. Environ. Sci., 19 (2007) 160–166.
14. O.S. Amudaa, A.A. Giwa, I.A. Bello, Removal of heavy metal from industrial wastewater using modified activated coconut shell carbon, Biochem. Eng. J., 36 (2007) 174–181.
15. F. Pereira, L. Gurgel, S. de Aquino, L. Gil, Removal of Zn²⁺ from electroplating wastewater using modified wood sawdust and sugarcane bagasse, J. Environ. Eng., 135 (2009) 341–350.
16. H. Nadaroglu, E. Kalkan, N. Demir, Removal of copper from aqueous solution using red mud, Desalination, 251 (2010) 90–95.
17. E. Da’na, Amine-modified SBA-15 (prepared by co-condensation) for adsorption of copper from aqueous solutions, PhD. Thesis, submitted to Department of Chemical and Biological Engineering Faculty of Engineering University of Ottawa, Canada, 2012.
18. M. Bozorgi, S. Abbasizadeh, F. Samani, S. Mousavi, Performance of synthesized cast and electrospun PVA/chitosan/ZnO-NH2 nano-adsorbents in single and simultaneous adsorption of cadmium and nickel ions from wastewater, Environ. Sci. Pollut. Res. Int., 25 (2018) 17457–17472.
19. A.A. Sabri, T.M. Albayati, R.A. Alazawi, Synthesis of ordered mesoporous SBA-15 and its adsorption of methylene blue, Korean. J. Chem. Eng., 32 (2015) 1835–1841.
20. T.M. Albayati, G.M. Alwan, O.S. Mahdy, High performance methyl orange capture on magnetic nanoporous MCM-41 prepared by incipient wetness impregnation method, Korean. J. Chem. Eng., 34 (2017) 259–265.
21. D. Zhao, Q. Huo, J. Feng, B. Chmelka, G. Stucky, Nonionic triblock and star diblock copolymer and oligomeric surfactant syntheses of highly ordered, hydrothermally stable, mesoporous silica structures, J. Amer. Chem. Soc., 120 (1998) 6024–6036.
22. T.M. Albayati, A.M. Doyle, Erratum to: encapsulated heterogeneous base catalysts onto SBA-15 nanoporous material as highly active catalysts in the transesterification of sunflower oil to biodiesel, J. Nanopart. Res., 17 (2015) 109.
23. A. Burke, J. Hanrahan, D. Healy, J. Sodeau, J. Holmes, M. Morris, Large pore bi-functionalised mesoporous silica for metal ion pollution treatment, J. Hazard. Mater., 164 (2009) 229–234.
24. T.M. Albayati, A.M. Doyle, Purification of aniline and nitro substituted aniline contaminants from aqueous solution using beta zeolite, Chemistry: bulgar, J. Sci. Educ., 23 (2014) 105–114.
25. E. Erdem, N. Karapina, R. Donat, The removal of heavy metal cations by natural zeolites, J. Colloid. Interface. Sci. 280 (2004) 309–314.
26. I. Mobasherpour, E. Salahi, M. Pazouki, Removal of nickel (II) from aqueous solutions by using nano-crystalline calcium hydroxyapatite, J. Saudi. Chem. Soc., 15 (2011) 105–112.
27. I. Mobasherpour, E. Salahi, M. Pazouki, Comparative of the removal of Pb²⁺, Cd²⁺ and Ni²⁺ by nano crystallite hydroxyapatite from aqueous solutions: adsorption isotherm study, Arab. J. Chem., 5 (2012) 439–446.
28. D. Ghahremani, I. Mobasherpour, E. Salahi, M. Ebrahimi, S. Manafi, L. Keramatpour, Potential of nano crystalline calcium hydroxyapatite for Tin(II) removal from aqueous solutions: equilibria and kinetic processes, Arab. J. Chem., 10 (2017) S461–S471.
29. B. Aregawi, A. Mengistie, Removal of Ni(II) from aqueous solution using leaf, bark and seed of moringa stenopetala adsorbents, Bull. Chem. Soc. Ethiopia., 27 (2013) 35–47.
30. T. Klimova, A. Esquivel, J. Reyes, M. Rubio, X. Bokhimi, J. Aracil, Factorial design for the evaluation of the influence of synthesis parameters upon the textural and structural properties of SBA- 15 ordered materials, Microporous. Mesoporous. Mater., 93 (2006) 331–343.
31. C. McManamon, A. Burke, J. Holmes, M. Morris, Aminefunctionalized SBA-15 of tailored pore size for heavy metal adsorption, J. Colloid. Interface. Sci., 369 (2012) 330–337.
32. T.M. Albayati, A.M. Doyle, SBA-15 supported bimetallic catalysts for enhancement isomers production during n-heptane decomposition, Int. J. Chem. Reactor. Eng., 12 (2014) 345–354.
33. T.M. Albayati, S.E. Wilkinson, A.A. Garforth, A.M. Doyle, Heterogeneous alkane reactions over nanoporous catalysts, Transp. Porous. Media., 104 (2014) 315–333.
34. A. Shahbazi, H. Younesi, A. Badiei, Functionalized SBA-15 mesoporous silica by melamine-based dendrimer amines for adsorptive characteristics of Pb(II), Cu(II) and Cd(II) heavy metal ions in batch and fixed bed column, Chem. Eng. J., 168 (2011) 505–518.
35. M. Naushad, T. Ahamad, B.M. Al-Maswari, A.A. Alqadami, S.M. Alshehri, Nickel ferrite bearing nitrogen-doped mesoporous carbon as efficient adsorbent for the removal of highly toxic metal ion from aqueous medium, Chem. Eng. J., 330 (2017) 1351–1360.
36. W. Yantasee Y. Lin, E. Fryxell, J. Busche, C. Birnbaum, Removal of heavy metals from aqueous solution using novel nanoengineered sorbents: self-assembled carbamoyl phosphonic acids on mesoporous silica, Sep. Sci. Technol., 38 (2003) 3809–3825.
37. M. Mureseanu, A. Reiss, I. Stefanescu, E. David, V. Parvulescu, G. Renard, V. Hulea, Modified SBA-15 mesoporous silica for heavy metal ions remediation, Chemosphere, 73 (2008) 1499–1504.
38. L. Giraldo, J. Moreno-Piraján, Study on the adsorption of hHeavy metal ions from aqueous solution on modified SBA-15, Mater. Res., 16 (2013) 745–754.