1. M. Mishra, M.S. Chauhan, Biosorption as a Novel Approach for Removing Aluminum from Water Treatment Plant Residual—A Review, V.P. Singh, S. Yadav, R.N. Yadava, Eds., Water Quality Management, Springer, Singapore, 2018, pp. 93–99.
  2. D. Popugaeva, K. Manoli, K. Kreyman, A.K. Ray, Removal of aluminum from aqueous solution by adsorption on montmorillonite K10, TiO2, and SiO2: kinetics, isotherms, and effect of ions, Adsorption, 25 (2019) 1575–1583.
  3. A.A. Al-Raad, M.M. Hanafiah, A.S. Naje, M.A. Ajeel, A.O. Basheer, T. Ali Aljayashi, M. Ekhwan Toriman, Treatment of saline water using electrocoagulation with combined electrical connection of electrodes, Processes, 7 (2019) 242.
  4. Y. Huang, X.F. Zeng, L.L. Guo, J.H. Lan, L.L. Zhang, D.P. Cao, Heavy metal ion removal of wastewater by zeolite-imidazolate frameworks, Sep. Purif. Technol., 194 (2018) 462–469.
  5. L. Fang, L. Li, Z. Qu, H.M. Xu, J.F. Xu, N.Q. Yan, A novel method for the sequential removal and separation of multiple heavy metals from wastewater, J. Hazard. Mater., 342 (2018) 617–624.
  6. W.L. Ang, A.W. Mohammad, D. Johnson, N. Hilal, Forward osmosis research trends in desalination and wastewater treatment: a review of research trends over the past decade, J. Water Process Eng., 31 (2019) 100886, jwpe.2019.100886.
  7. S.N.A. Mohd-Salleh, N.S. Mohd-Zin, N. Othman, A review of wastewater treatment using natural material and its potential as aid and composite coagulant, Sains Malaysiana, 48 (2019) 155–164.
  8. P.S. Thue, G.S. dos Reis, E.C. Lima, J.M. Sieliechi, G.L. Dotto, A.G.N. Wamba, S.L.P. Dias, F.A. Pavan, Activated carbon obtained from sapelli wood sawdust by microwave heating for o-cresol adsorption, Res. Chem. Intermed., 43 (2017) 1063–1087.
  9. S. Kizito, S.B. Wu, W.K. Kirui, M. Lei, Q.M. Lu, H. Bah, R.J. Dong, Evaluation of slow pyrolyzed wood and rice husks biochar for adsorption of ammonium nitrogen from piggery manure anaerobic digestate slurry, Sci. Total Environ., 505 (2015) 102–112.
  10. K. Intani, S. Latif, A.K.M. Rafayatul Kabir, J. Müller, Effect of self-purging pyrolysis on yield of biochar from maize cobs, husks and leaves, Bioresour. Technol., 218 (2016) 541–551.
  11. H. Zhao, W. Sun, X.M. Wu, B. Gao, The properties of the selfcompacting concrete with fly ash and ground granulated blast furnace slag mineral admixtures, J. Cleaner Prod., 95 (2015) 66–74.
  12. A.O. Basheer, M.M. Hanafiah, M.A. Alsaadi, W.Z. Wan Yaacob, Y. Al-Douri, Synthesis, characterization, and analysis of hybrid carbon nanotubes by chemical vapor deposition: application for aluminum removal, Polymers, 12 (2020) 1305, https://doi. org/10.3390/polym12061305.
  13. G.L. Chen, X.M. Liu, P.C. Brookes, J.M. Xu, Opportunities for phytoremediation and bioindication of arsenic contaminated water using a submerged aquatic plant: Vallisneria natans (Lour.) Hara, Int. J. Phytorem., 17 (2015) 249–255.
  14. C.C. Murray, H. Vatankhah, C.A. McDonough, A. Nickerson, T.T. Hedtke, T.Y. Cath, C.P. Higgins, C.L. Bellona, Removal of per- and polyfluoroalkyl substances using super-fine powder activated carbon and ceramic membrane filtration, J. Hazard. Mater., 366 (2019) 160–168.
  15. K.K. Sadasivuni, J.-J. Cabibihan, K. Deshmukh, S. Goutham, M.K. Abubasha, J.P. Gogoi, I. Klemenoks, G. Sakale, B.S. Sekhar, P.S. Rama Sreekanth, K. Venkateswara Rao, M. Knite, A review on porous polymer composite materials for multifunctional electronic applications, Polym. Plast. Technol. Mater., 58 (2019) 1253–1294.
  16. X. Xiang, L. Zhang, H.I. Hima, F. Li, D.G. Evans, Co-based catalysts from Co/Fe/Al layered double hydroxides for preparation of carbon nanotubes, Appl. Clay Sci., 42 (2009) 405–409.
  17. M.M. Aljumaily, M.A. Alsaadi, N.A. Hashim, Q.F. Alsalhy, F.S. Mjalli, M.A. Atieh, A. Al-Harrasi, PVDF-co-HFP/superhydrophobic acetylene-based nanocarbon hybrid membrane for seawater desalination via DCMD, Chem. Eng. Res. Des., 138 (2018) 248–259.
  18. H.M. Alayan, M.A. Alsaadi, M.K. AlOmar, M.A. Hashim, Growth and optimization of carbon nanotubes in powder activated carbon for an efficient removal of methylene blue from aqueous solution, Environ. Technol., 40 (2019) 2400–2415.
  19. A. Yahyazadeh, B. Khoshandam, Carbon nanotube synthesis via the catalytic chemical vapor deposition of methane in the presence of iron, molybdenum, and iron–molybdenum alloy thin layer catalysts, Results Phys., 7 (2017) 3826–3837.
  20. Y. Zhao, J.H. Choi, P. Kim, W.D. Fei, C.J. Lee, Large-scale synthesis and characterization of super-bundle single-walled carbon nanotubes by water-assisted chemical vapor deposition, RSC Adv., 5 (2015) 30564–30569.
  21. G.H. Chen, R.C. Davis, H. Kimura, S. Sakurai, M. Yumura, D.N. Futaba, K. Hata, The relationship between the growth rate and the lifetime in carbon nanotube synthesis, Nanoscale, 7 (2015) 8873–8878.
  22. A.A. Mamun, F.R. Ma’an, A.K. Zahirah, M.A. Yehya, A.R.S. Mohammed, M.Z. Alam, S.A. Muyibi, I.A. Faris, I. Azni, Optimisation of arsenic adsorption from water by carbon nanofibers grown on powdered activated carbon impregnated with nickel, J. Appl. Sci., 9 (2009) 3180–3183.
  23. A.O. Basheer, M.M. Hanafiah, M. Abdulhakim Alsaadi, Y. Al-Douri, M.A. Malek, M. Mohammed Aljumaily, S. Saadi Fiyadh, Synthesis and characterization of natural extracted precursor date palm fibre-based activated carbon for aluminum removal by RSM optimization, Processes, 7 (2019) 249, https://
  24. M.M. Aljumaily, M.A. Alsaadi, N.A. Hashim, Q.F. Alsalhy, R. Das, F. Mjalli, Embedded high-hydrophobic CNMs prepared by CVD technique with PVDF-co-HFP membrane for application in water desalination by DCMD, Desal. Water Treat., 142 (2019) 37–48.
  25. L.S. Krishna, K. Soontarapa, N.K. Asmel, M.A. Kabir, A. Yuzir, W.Z.W. Zuhairi, Y. Sarala, Adsorption of acid blue 25 from aqueous solution using zeolite and surfactant modified zeolite, Desal. Water Treat., 150 (2019) 348–360.
  26. T. Robshaw, S. Tukra, D.B. Hammond, G.J. Leggett, M.D. Ogden, Highly efficient fluoride extraction from simulant leachate of spent potlining via La-loaded chelating resin. An equilibrium study, J. Hazard. Mater., 361 (2019) 200–209.
  27. A. Syafiuddin, S. Salmiati, T. Hadibarata, A.B.H. Kueh, M.R. Salim, M.A.A. Zaini, Silver nanoparticles in the water environment in Malaysia: inspection, characterization, removal, modeling, and future perspective, Sci. Rep., 8 (2018) 986,
  28. M.M. Aljumaily, M.A. Alsaadi, R. Das, S.B.A. Hamid, N.A. Hashim, M.K. AlOmar, H.M. Alayan, M. Novikov, Q.F. Alsalhy, M.A. Hashim, Optimization of the synthesis of superhydrophobic carbon nanomaterials by chemical vapor deposition, Sci. Rep., 8 (2018) 2778, s41598-018-21051-3.
  29. V. Ţucureanu, A. Matei, A.M. Avram, FTIR spectroscopy for carbon family study, Crit. Rev. Anal. Chem., 46 (2016) 502–520.
  30. V.K. Gupta, S. Agarwal, T.A. Saleh, Synthesis and characterization of alumina-coated carbon nanotubes and their application for lead removal, J. Hazard. Mater., 185 (2011) 17–23.
  31. X. Rodiles, V. Reguero, M. Vila, B. Alemán, L. Arévalo, F. Fresno, V. de la Peña O’Shea, J.J. Vilatela, Carbon nanotube synthesis and spinning as macroscopic fibers assisted by the ceramic reactor tube, Sci. Rep., 9 (2019) 9239.
  32. H.X. Ou, Q.H. Chen, G.H. Chen, L. Wang, Y.Z. Xu, J.F. Ma, L.P. Wang, Characterization and performance of hollow silica for adsorption of amoxicillin in aqueous solutions, Water Environ. Res., 89 (2017) 348–356.
  33. N.A. Zarime, W.Z.W. Yaacob, H. Jamil, Decolourization of anionic dye by activated carbon-supported nano-zero valent iron (nZVI), Chem. Eng. Trans., 73 (2019) 85–90.
  34. P. Liu, Q. Ru, P.M. Zheng, Z.L. Shi, Y. Liu, C.Q. Su, X.H. Hou, S.C. Su, F.C.-C. Ling, One-step synthesis of Zn2GeO4/CNT-O hybrid with superior cycle stability for supercapacitor electrodes, Chem. Eng. J., 374 (2019) 29–38.
  35. M.K. AlOmar, M.A. Alsaadi, M. Hayyan, S. Akib, R.K. Ibrahim, M.A. Hashim, Lead removal from water by choline chloride based deep eutectic solvents functionalized carbon nanotubes, J. Mol. Liq., 222 (2016) 883–894.
  36. C.L. Ngan, M. Basri, F.F. Lye, H.R.F. Masoumi, M. Tripathy, R.A. Karjiban, E. Abdul-Malek, Comparison of Box–Behnken and central composite designs in optimization of fullerene loaded palm-based nano-emulsions for cosmeceutical application, Ind. Crops Prod., 59 (2014) 309–317.
  37. G. Halder, K. Sinha, S. Dhawane, Defluoridation of wastewater using powdered activated carbon developed from Eichhornia crassipes stem: optimization by response surface methodology, Desal. Water Treat., 56 (2015) 953–966.
  38. M.K. AlOmar, M.A. Alsaadi, M. Hayyan, S. Akib, M. Ibrahim, M.A. Hashim, Allyl triphenyl phosphonium bromide based DES-functionalized carbon nanotubes for the removal of mercury from water, Chemosphere, 167 (2017) 44–52.
  39. H.B. Bradl, Adsorption of heavy metal ions on soils and soils constituents, J. Colloid Interface Sci., 277 (2004) 1–18.
  40. A.S.K. Kumar, S.-J. Jiang, Chitosan-functionalized graphene oxide: a novel adsorbent an efficient adsorption of arsenic from aqueous solution, J. Environ. Chem. Eng., 4 (2016) 1698–1713.
  41. H.M. Alayan, M.A. Alsaadi, A. Abo-Hamad, M.K. AlOmar, M.M. Aljumaily, R. Das, M.A. Hashim, Hybridizing carbon nanomaterial with powder activated carbon for an efficient removal of bisphenol A from water: the optimum growth and adsorption conditions, Desal. Water Treat., 95 (2017) 128–143.
  42. S.S. Li, H.J. Zhang, S.Y. Hu, J. Liu, Q. Zhu, S.W. Zhang, Synthesis of hierarchical porous carbon in molten salt and its application for dye adsorption, Nanomaterials, 9 (2019) 1098, doi: 10.3390/ nano9081098.
  43. S.K. Lakkaboyana, S. Khantong, N.K. Asmel, A. Yuzir, W.Z.W. Yaacob, Synthesis of copper oxide nanowires-activated carbon (AC@CuO-NWs) and applied for removal methylene blue from aqueous solution: kinetics, isotherms, and thermodynamics, J. Inorg. Organomet. Polym. Mater., 29 (2019) 1658–1668.
  44. X.Y. Shi, B. Gong, S.J. Liao, J.L. Wang, Y.H. Liu, T.Y. Wang, J.K. Shi, Removal and enrichment of Cr(VI) from aqueous solutions by lotus seed pods, Water Environ. Res., 92 (2020) 84–93.
  45. W.I. Mortada, I.M.M. Kenawy, Y.G.A. El-Reash, A.A. Mousa, Microwave assisted modification of cellulose by gallic acid and its application for removal of aluminum from real samples, Int. J. Biol. Macromol., 101 (2017) 490–501.
  46. S.M. Safwat, M. Medhat, H. Abdel-Halim, Adsorption of phenol onto aluminum oxide and zinc oxide: a comparative study with titanium dioxide, Sep. Sci. Technol., 54 (2019) 2840–2852.
  47. T.A. Saleh, M. Tuzen, A. Sarı, Magnetic activated carbon loaded with tungsten oxide nanoparticles for aluminum removal from waters, J. Environ. Chem. Eng., 5 (2017) 2853–2860.
  48. Z. Aly, A. Graulet, N. Scales, T. Hanley, Removal of aluminum from aqueous solutions using PAN-based adsorbents: characterisation, kinetics, equilibrium and thermodynamic studies, Environ. Sci. Technol., 21 (2014) 3972–3986.
  49. S.A. Al-Muhtaseb, M.H. El-Naas, S. Abdallah, Removal of aluminum from aqueous solutions by adsorption on datepit and BDH activated carbons, J. Hazard. Mater., 158 (2008) 300–307.