References

1. S.M. Alshehri, M. Naushad, T. Ahamad, Z.A. ALOthman, A. Aldalbahi, Synthesis characterization of curcumin based ecofriendly antimicrobial bio-adsorbent for the removal of phenol from aqueous medium, Chem. Eng. J., 254 (2014) 181–189.
2. L.B.L. Lim, N. Priyantha, T. Zehra, C.W. Then, C.M. Chan, Adsorption of crystal violet dye from aqueous solution onto chemically treated Artocarpus odoratissimus skin: equilibrium, thermodynamics, and kinetics studies, Desal. Water Treat., 57 (2016) 10246–10260.
3. 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.
4. Z.A. AL-Othman, R. Ali, M. Naushad, Hexavalent chromium removal from aqueous medium by activated carbon prepared from peanut shell: Adsorption kinetics, equilibrium and thermodynamic studies, Chem. Eng. J., 184 (2012) 238–247.
5. M. Naushad, T. Ahamad, G. Sharma, A.H. Al-Muhtaseb, A.B. Abadarin, M.M. Alam, Z.A. ALOthman, S.M. Alshehri, A.A. Ghfar, Synthesis and characterization of a new starch/SnO₂ nanocomposite for efficient adsorption of toxic Hg²⁺ metal ion, Chem. Eng. J., 300 (2016) 306–316.
6. N. Singh, K. Gupta, Adsorption of heavy metals: A review, Int. J. Innov. Res. Sci. Mon., 5 (2016) 2267–2281.
7. N.J. Bhakte, A.A. Suryavanshi, S.N. Tirthakar, D.Y.P. College, Removal of heavy metal lead (Pb) from electrochemical industry waste water using low cost adsorbent, 4 (2015) 2319–2321.
8. A.A. Alqadami, M. Naushad, Z.A. Alothman, A.A. Ghfar, Novel metal-organic framework (MOF) based composite material for the sequestration of U(VI) and Th(IV) metal ions from aqueous environment, ACS Appl. Mater. Interfaces, 9 (2017) 36026–36037.
9. N.P. Cheremisinoff, Handbook of Water and Wastewater Treatment Technologies, 2002, pp. 446–495.
10. L.B.L. Lim, N. Priyantha, D.T.B. Tennakoon, M.K. Dahri, Biosorption of cadmium(II) and copper(II) ions from aqueous solution by core of Artocarpus odoratissimus, Environ. Sci. Pollut. Res., 19 (2012) 3250–3256.
11. F. Fu, Q. Wang, Removal of heavy metal ions from waste waters: A review, J. Environ. Manag., 92 (2011) 407–418.
12. T. Zehra, L.B.L. Lim, N. Priyantha, Characterization of peat samples collected from Brunei Darussalam and their evaluation as potential adsorbents for Cu(II) removal from aqueous solution, Desal. Water Treat., 57 (2016) 20889–20903.
13. A. Ghosh, M.G. Dastidar, T.R. Sreekrishnan, Recent advances in bioremediation of heavy metals and metal complex dyes: Review, J. Environ. Eng., 142 (2016) C4015003.
14. N. Priyantha, L.B.L. Lim, D.T.B. Tennakoon, N. Hakimah M. Mansor, Breadfruit (Artocarpus altilis) waste for bioremediation of Cu(II) and Cd(II) ions from aqueous medium, Ceylon J. Sci. (Physical Sci.), 17 (2013) 19–29.
15. N. Priyantha, L.B.L. Lim, S. Wickramasooriya, Adsorption behaviour of Cr(VI) by muthurajawela peat, Desal. Water Treat., 57 (2016) 16592–16600.
16. M.N. Rashed, Photo catalytic degradation of divalent metals under sunlight irradiation using nanoparticle TiO₂ modified concrete materials (recycled glass cullet), Recent Prog. Desal. Environ. Mar. Outfall Syst., (2015) 99–108.
17. S. Chanmalee, Adsorption of Pb(II) from synthetic solution by pomelo peel, The Asian Conference on Sustainability, Energy & the Environment 2016 Official Conference Proceedings, 2016, pp. 1–9.
18. W. Saikaew, Pomelo peel: agricultural waste for biosorption of cadmium ions from aqueous solutions, Int. J. Chem. Mol. Nucl. Mater. Metall. Eng., 3 (2009) 393–397.
19. P. Tasaso, Adsorption of copper using pomelo peel and depectinated pomelo peel, J. Clean Energy Technol., 2 (2014) 154–157.
20. M.E. Argun, D. Güclü, M. Karatas, Adsorption of reactive blue 114 dye by using a new adsorbent: Pomelo peel, J. Ind. Eng. Chem., 20 (2014) 1079–1084.
21. H.I. Chieng, N. Priyantha, L.B.L. Lim, Effective adsorption of toxic brilliant green from aqueous solution using peat of Brunei Darussalam: isotherms, thermodynamics, kinetics and regeneration studies, RSC Adv., 5 (2015) 34603–34615.
22. S.X. Hou, Adsorption properties of pomelo peels against methylene blue in dye wastewater, Adv. Mater. Res., 634–638 (2013) 178–181.
23. M. Jayarajan, R. Arunachalam, G. Annadurai, Use of low cost nano-porous materials of pomelo fruit peel wastes in removal of textile dye, Environ. Sci., 5 (2011) 434–443.
24. L.B.L. Lim, N. Priyantha, Y.C. Lu, N.A.H.M. Zaidi, Effective removal of methyl violet dye using pomelo leaves as a new low-cost adsorbent, Desal. Water Treat., 110 (2018) 264–274.
25. L.B.L. Lim, N. Priyantha, M.H.F. Lai, R.M. Salleha, T. Zehra, Utilization of Artocarpus hybrid (Nanchem) skin for the removal of Pb(II): equilibrium, thermodynamics, kinetics and regeneration studies, Int. Food Res. J., 22 (2015) 1043–1052.
26. M. Naushad, Z.A. ALOthman, Separation of toxic Pb²⁺ metal from aqueous solution using strongly acidic cation-exchange resin: analytical applications for the removal of metal ions from pharmaceutical formulation, Desal. Water Treat., 53 (2015) 2158–2166.
27. A. Mittal, M. Naushad, G. Sharma, Z.A. ALothman, S.M. Wabaidur, M. Alam, Fabrication of MWCNTs/ThO₂ nanocomposite and its adsorption behavior for the removal of Pb(II) metal from aqueous medium, Desal. Water Treat., 57 (2016) 21863–21869.
28. A.H. Chen, S.C. Liu, C.Y. Chen, C.Y. Chen, Comparative adsorption of Cu(II), Zn(II), and Pb(II) ions in aqueous solution on the cross linked chitosan with epichlorohydrin, J. Hazard. Mater., 154 (2008) 184–191.
29. B.S. Smolyakov, A.K. Sagidullin, R.E. Romanov, N.I. Yermolaeva, Efficient removal of Cd(II), Cu(II), Pb(II), and Zn(II) from wastewater and natural water using submersible device, Environ. Sci. Pollut. Res., 26(7) (2019) 6368–6377.
30. L. Irving, The adsorption of gases on plane surfaces of glass, mica and platinum, J. Am. Chem. Soc., 40 (1918) 1361–1403.
31. H. Freundlich, Over the adsorption in the solution, J. Phys. Chem., 57 (1906) 385–470.
32. M.J. Temkin, V. Pyzhev, Kinetics of ammonia synthesis on promoted iron catalysts, Acta. Physiochim., 12 (1940) 217.
33. O. Redlich, D.L. Peterson, A useful adsorption isotherm, J. Phys. Chem., 63 (1959) 1024–1024.
34. R. Sips, Combined form of langmuir and freundlich equations, J. Chem. Phys., 16 (1948) 490–495.
35. M. Iqbal, A. Saeed, S.I. Zafar, FTIR spectrophotometry, kinetics and adsorption isotherms modeling, ion exchange, and EDX analysis for understanding the mechanism of Cd²⁺ and Pb²⁺ removal by mango peel waste, J. Hazard. Mater., 164 (2009) 161–171.
36. Q.S. Pan, W. Liu, M.G. Mao, H.P. Yan, D.S. Huang, B. Zhou, B.S. Wang, N. Wu, S.J. Xu, L. Shi, Study on the adsorption effect of ZnCl₂-modified pomelo peel powder on wastewater containing Pb(II), Adv. Mater. Res., 726–731 (2013) 2320–2323.
37. J. Lou, J.W. Ge, X.B. Yang, X.D. Li, Adsorption kinetics of modified pomelo peel cellulose towards lead ions, Food Sci., 31 (2010) 87–90.
38. L.B.L. Lim, W.A. Wahid, N.A.H.M. Zaidi, Leaves of Averrhoa bilimbi as a superior low-cost adsorbent for lead(II) removal, J. Mater. Sci. Res., 2018 (2018) 1–10.
39. S. Madala, M. Veera, N. Reddy, S. Vudagandla, K. Abburi, Modified leaf biomass for Pb(II) removal from aqueous solution: Application of response surface methodology, Ecol. Eng., 83 (2015) 218–226.
40. N.A.H.M. Zaidi, L.B.L. Lim, A. Usman, Enhancing adsorption of Pb(II) from aqueous solution by NaOH and EDTA modified Artocarpus odoratissimus leaves, J. Environ. Chem. Eng., 6 (2018) 7172–7184.
41. P. Ramakul, Y. Yanachawakul, N. Leepipatpiboon, N. Sunsandee, Biosorption of palladium(II) and platinum(IV) from aqueous solution using tannin from India almond (Terminalia catappa L.) leaf biomass: Kinetic and equilibrium, Chem. Eng. J., 193 (2012) 102–112.
42. A.M. Farhan, A.H. Al-Dujaili, A.M. Awwad, Equilibrium and kinetic studies of cadmium(II) and lead(II) ions biosorption onto Ficus carcia leaves, Int. J. Ind. Chem., 4 (2013) 24.
43. H. Lalhruaitluanga, K. Jayaram, M.N.V. Prasad, K.K. Kumar, Lead(II) adsorption from aqueous solutions by raw and activated charcoals of Melocanna baccifera Roxburgh (bamboo) — A comparative study, J. Hazard. Mater., 175 (2010) 311–318.
44. M. Momčilović, M. Purenović, A. Bojić, A. Zarubica, M. Randelovid, Removal of lead(II) ions from aqueous solutions by adsorption onto pine cone activated carbon, Desal. Water Treat., 276 (2011) 53–59.
45. S. Gueu, B. Yao, K. Adouby, G. Ado, Kinetics and thermodynamics study of lead adsorption on to activated carbons from coconut and seed hull of the palm tree, Int. J. Environ. Sci. Technol., 4 (2007) 11–17.
46. E.A.M. Yap, M. Mujawar, J. Sahu, Microwave induced synthesis of magnetic biochar from agricultural biomass for removal of lead and cadmium from wastewater, J. Ind. Eng. Chem., 45 (2017) 287–295.
47. B. Li, F. Zhou, K. Huang, Y. Wang, S. Mei, Y. Zhou, T. Jing, Highly efficient removal of lead and cadmium during wastewater irrigation using a polyethylenimine-grafted gelatin sponge, Sci. Rep., 6 (2016) 1–9.
48. Y.S. Ho, A.E. Ofomaja, Kinetics and thermodynamics of lead ion sorption on palm kernel fibre from aqueous solution, Process Biochem., 40 (2005) 3455–3461.
49. Ş. Taşar, F. Kaya, A. Özer, Biosorption of lead(II) ions from aqueous solution by peanut shells: Equilibrium, thermodynamic and kinetic studies, J. Environ. Chem. Eng., 2 (2014) 1018–1026.
50. W.P. Putra, A. Kamari, S.N.M. Yusoff, C.F. Ishak, A. Mohamed, N. Hashim, I. Md Isa, Biosorption of Cu(II), Pb(II) and Zn(II) ions from aqueous solutions using selected waste materials: Adsorption and characterisation studies, J. Encapsulation Adsorpt. Sci., 4 (2014) 25–35.
51. T. Zehra, L.B.L. Lim, N. Priyantha, Removal behavior of peat collected from Brunei Darussalam for Pb(II) ions from aqueous solution: equilibrium isotherm, thermodynamics, kinetics and regeneration studies, Environ. Earth Sci., 74 (2015) 2541–2551.
52. M. Ghasemi, M. Naushad, N. Ghasemi, Y. Khosravi-fard, A novel agricultural waste based adsorbent for the removal of Pb(II) from aqueous solution: Kinetics, equilibrium and thermodynamic studies, J. Ind. Eng. Chem., 20 (2014) 454–461.
53. M. Ghasemi, M. Naushad, N. Ghasemi, Y. Khosravi-fard, Adsorption of Pb(II) from aqueous solution using new adsorbents prepared from agricultural waste: Adsorption isotherm and kinetic studies, J. Ind. Eng. Chem., 20 (2014) 2193–2199.
54. M. Naushad, Surfactant assisted nano-composite cation exchanger: Development, characterization and applications for the removal of toxic Pb²⁺ from aqueous medium, Chem. Eng. J., 235 (2014) 100–108.
55. M. Naushad, Z.A. ALOthman, M.R. Awual, M.M. Alam, G.E. Eldesoky, Adsorption kinetics, isotherms, and thermodynamic studies for the adsorption of Pb²⁺ and Hg²⁺ metal ions from aqueous medium using Ti(IV) iodovanadate cation exchanger, Ionics, 21 (2015) 2237–2245.
56. S. Lagergren, About the theory of so-called adsorption of soluble substances, K. Sven. Vetensk.akad. Handl., 24 (1898) 1–39.
57. B.H. Hameed, D.K. Mahmoud, A.L. Ahmad, Sorption of basic dye from aqueous solution by pomelo (Citrus grandis) peel in a batch system, Colloids Surfaces A Physicochem. Eng. Asp., 316 (2008) 78–84.
58. M. Naushad, T. Ahamad, Z.A. AlOthman, A.H. Al-Muhtaseb, Green and eco-friendly nanocomposite for the removal of toxic Hg(II) metal ion from aqueous environment: Adsorption kinetics and isotherm modelling, J. Mol. Liquids, 279 (2019) 1–8.
59. A.A. Alqadami, M. Naushas, M.A. Abdalla, T. Ahamad, Z.A. ALOthman, S.M. Alsehri, A.A. Ghfar, Efficient removal of toxic metal ions from wastewater using a recyclable nanocomposite: A study of adsorption parameters and interaction mechanism, J. Clean. Prod., 156 (2017) 426–436.