https://orcid.org/0000-0003-2126-2870
References
- Ghosh A, Mukherjee K, Ghosh SK, et al. Sources and toxicity of fluoride in the environment. Res Chem Intermed. 2013;39(7):2881–2915.
- Naushad M, Sharma G, Alothman ZA. Photodegradation of toxic dye using Gum Arabic-crosslinked-poly (acrylamide)/Ni (OH) 2/FeOOH nanocomposites hydrogel. J Cleaner Prod. 2019 Dec 20;241:118263.
- Ali I, Alharbi OM, ALOthman ZA, et al. Modeling of fenuron pesticide adsorption on CNTs for mechanistic insight and removal in water. Environ Res. 2019 Mar 1;170:389–397. https://forms.gle/2nekwShaxLU9ptfUA.
- Wabaidur SM, Khan MA, Siddiqui MR, et al. Oxygenated functionalities enriched MWCNTs decorated with silica coated spinel ferrite–a nanocomposite for potentially rapid and efficient de-colorization of aquatic environment. J Mol Liq. 2020 Nov 1;317:113916.
- ALOthman ZA. A review: fundamental aspects of silicate mesoporous materials. Materials. 2012;5(12):2874–2902.
- Khan MA, Alqadami AA, Wabaidur SM, et al. Oil industry waste based non-magnetic and magnetic hydrochar to sequester potentially toxic post-transition metal ions from water. J Hazard Mater. 2020;400:123247.
- Mittal A, Naushad M, Sharma G, et al. Fabrication of MWCNTs/ThO2 nanocomposite and its adsorption behavior for the removal of Pb (II) metal from aqueous medium. Desalin Water Treat. 2016;57(46):21863–21869.
- Azhar A, Yamauchi Y, Allah AE, et al. Nanoporous iron oxide/carbon composites through in-situ deposition of prussian blue nanoparticles on graphene oxide nanosheets and subsequent thermal treatment for supercapacitor applications. Nanomaterials. 2019;9(5):776.
- Alqadami AA, Khan MA, Siddiqui MR, et al. Development of citric anhydride anchored mesoporous MOF through post synthesis modification to sequester potentially toxic lead (II) from water. Microporous Mesoporous Mater. 2018;261:198–206.
- Bansiwal A, Pillewan P, Biniwale RB, et al. Copper oxide incorporated mesoporous alumina for defluoridation of drinking water. Microporous Mesoporous Mater. 2010;129(1-2):54–61.
- Kikuchi M, Arioka Y, Tafu M, et al. Changes in fluoride removal ability of chicken bone char with changes in calcination time. Int J Ceram Eng Sci. 2020;2(2):83–91.
- Navarro P, Alguacil FJ. Adsorption of antimony and arsenic from a copper electrorefining solution onto activated carbon. Hydrometallurgy. 2002;66(1–3):101–105.
- Jiménez V, Halla L. Adsorption of inorganic priority pollutants in water by tailored lignocellulosic and carbonaceous adsorbents. Ph.D. thesis, Potosino Institute of Scientific and Technological Research, 2014.
- Liu Y, Meng L, Han K, et al. Synthesis of nano-zirconium-iron oxide supported by activated carbon composite for the removal of Sb (v) in aqueous solution. RSC Adv. 2021;11(49):31131–31141.
- Alam E, Feng Q, Yang H, et al. Synthesis of Fe3O4@ mZrO2-Re (Re = Y/La/Ce) by using uniform design, surface response methodology, and orthogonal design & its application for As3+ and As5+ removal. Nanomaterials. 2021;11(9):2177.
- Vences-Alvarez E, Velazquez-Jimenez LH, Chazaro-Ruiz LF, et al. Fluoride removal in water by a hybrid adsorbent lanthanum–carbon. J Colloid Interface Sci. 2015;455:194–202.
- Velazquez-Jimenez LH, Hurt RH, Matos J, et al. Zirconium–carbon hybrid sorbent for removal of fluoride from water: oxalic acid mediated Zr (IV) assembly and adsorption mechanism. Environ Sci Technol. 2014;48(2):1166–1174.
- Mullick A, Neogi S. Acoustic cavitation induced synthesis of zirconium impregnated activated carbon for effective fluoride scavenging from water by adsorption. Ultrason Sonochem. 2018;45:65–77.
- Kalidindi S, Vecha M, Kar A, et al. Aluminum–cerium double-metal impregnated activated carbon: a novel composite for fluoride removal from aqueous solution. Water Sci Technol: Water Supply. 2017;17(1):115–124.
- Li Y, Zhang C, Jiang Y, et al. Electrically enhanced adsorption and green regeneration for fluoride removal using Ti (OH) 4-loaded activated carbon electrodes. Chemosphere. 2018;200:554–560.
- Vijaya Y, Krishnaiah A. Sorptive response profile of chitosan coated silica in the defluoridation of aqueous solution. E-J Chem. 2009;6(3):713–724.
- Ghaedi M, Roosta M, Ghaedi AM, et al. Removal of methylene blue by silver nanoparticles loaded on activated carbon by an ultrasound-assisted device: optimization by experimental design methodology. Res Chem Intermed. 2018;44(5):2929–2950.
- Barathi M, Santhana Krishna Kumar A, Kumara CU, et al. Graphene oxide–aluminium oxyhydroxide interaction and its application for the effective adsorption of fluoride. RSC Adv. 2014;4:53711–53721.
- Hiremath PG, Theodore T. Fluoride contamination in underground water and Its treatment. In: Hussain CM, Rajkhowa S, Singh P, editor. Book: management of contaminants of emerging concern (CEC) in environment. Netherlands: Elsevier Science; 2021. p. 249.
- Kenawy ER, Ghfar AA, Wabaidur SM, et al. Cetyltrimethylammonium bromide intercalated and branched polyhydroxystyrene functionalized montmorillonite clay to sequester cationic dyes. J Environ Manag. 2018;219:285–293.
- Sathish RS, Sairam S, Raja VG, et al. Defluoridation of water using zirconium impregnated coconut fiber carbon. Sep Sci Technol. 2008;43(14):3676–3694.
- Hiremath PG, Navya PN, Chandramohan V, et al. Isolation,: screening, and identification of fungal organisms for biosorption of fluoride: kinetic study and statistical optimization of biosorption parameters. J Biochem Technol. 2016;7:1069.
- Patel SB, Panda AP, Swain SK, et al. Development of aluminum and zirconium based xerogel for defluoridation of drinking water: study of material properties,: solution kinetics and thermodynamics. J Environ Chem Eng. 2018;6(5):6231–6242.
- Alothman ZA, Bahkali AH, Khiyami MA, et al. Low cost biosorbents from fungi for heavy metals removal from wastewater. Sep Sci Technol. 2020;55(10):1766–1775.
- Srivastava VC, Swamy MM, Mall ID, et al. Adsorptive removal of phenol by bagasse fly ash and activated carbon: equilibrium,: kinetics and thermodynamics. Colloids Surf A. 2006;272(1-2):89–104.
- Hiremath PG, Theodore T. Modelling of fluoride sorption from aqueous solution using green algae impregnated with zirconium by response surface methodology. Adsorpt Sci Technol. 2017;35(1-2):194–217.
- Matsui K, Michiharu O. Formation mechanism of hydrous zirconia particles produced by hydrolysis of ZrOCl2 solutions: IV, effects of ZrOCl2 concentration and reaction temperature. J Am Ceram Soc. 2002;85(3):545–553.
- Loganathan P, Vigneswaran S, Kandasamy J, et al. Defluoridation of drinking water using adsorption processes. J Hazard Mater. 2013 Mar 15;248:1–9.
- Mbugua G, Mwangi I, Wanjau R, et al. Facile removal of fluoride ions from water using triethylamine modified polyethylene adsorbent. 2020.
- Alagumuthu G, Rajan M. Kinetic and equilibrium studies on fluoride removal by zirconium (IV): impregnated groundnut shell carbon. Hemijska Industrija. 2010;64(4):295–304.