References

1. D. Sriranganathan, X. Chen, K.A. Hing, N. Kanwald, R.G. Hill, The effect of the incorporation of fluoride into strontium containing bioactive glasses, J. Non–Cryst. Solids., 457 (2017) 25–30.
2. H.H. Nguyen, F. Milat, P.R. Ebeling, A new contralateral atypical femoral fracture despite sequential therapy with teriparatide and strontium ranelate, Bone Rep., 6 (2017) 34–37.
3. M.J. Iqbal, S. Farooq, Could binary mixture of Nd–Ni ions control the electrical behavior of strontium barium M–type hexaferrite nanoparticles, Mater. Res. Bull., 46 (2011) 662–667.
4. M. Jamalian, A. Ghasemi, E.A. Paimozd, Comparison of the magnetic and microwave absorption properties of Mn–Sn–Ti substituted strontium ferrite with and without multi-walled carbon nanotube, Curr. Appl. Phys., 14, (2014) 909–915.
5. S. Taylor, A. Samokhvalov, Water as probe molecule for midgap states in nanocrystalline strontium titanate by conventional and synchronous luminescence spectroscopy under ambient conditions, Spectrochim. Acta A, 174 (2017) 54–61.
6. A. Sachse, A. Merceille, Y. Barré, A. Grandjeanc, F. Fajula, A. Galarneau, Macroporous LTA-monoliths for in-flow removal of radioactive strontium from aqueous effluents: application to the case of Fukushima, Microporous Mesoporous Mater., 164 (2012) 251–258.
7. Z. Cheng, Z. Gao, W. Ma, Q. Sun, B. Wang, X. Wang, Preparation of magnetic Fe₃O₄ particles modified sawdust as the adsorbent to remove strontium ions, Chem. Eng. J., 209 (2012) 451–457.
8. W. Mu, Q. Yu, X. Li, H. Wei, Y. Jian, Niobate nanofibers for simultaneous adsorptive removal of radioactive strontium and iodine from aqueous solution, J. Alloy. Compd., 693 (2017) 550–557.
9. C. Xu, J. Wang, J. Chen, Solvent extraction of strontium and cesium: a review of recent progress, Solvent Extr. Ion Exch., 30 (2012) 623–650.
10. I.M. El-Naggar, G.M. Ibrahimm, B. EL-Gammal, E.A. El-Kady, Integrated synthesis and characterization of some porous polyacrylamide-based composites for cationic sorption from aqueous liquid wastes, Desal. Water Treat., 52 (2014) 6802– 6816.
11. A.F. Shaaban, T.Y. Mohamed, D.A. Fadel, N.M. Bayomi, Removal of Ba(II) and Sr(II) ions using modified chitosan beads with pendent amidoxime moieties by batch and fixed bed column methods, Desal. Water Treat., 82 (2017) 131–145.
12. H. Hye-Jin, K. Byoung-Gyu, H. Jeongsik, Enhanced Sr adsorption performance of MnO₂–alginate beads in seawater and evaluation of its mechanism, Chem. Eng. J., 319 (2017) 163–169.
13. W. Mu, Q. Yu, X. Li, Efficient removal of Cs⁺ and Sr²⁺ from aqueous solution using hierarchically structured hexagonal tungsten trioxide coated Fe₃O₄, Chem. Eng. J., 319 (2017) 170–178.
14. S.M. Al-Jubouri, N.A. Curry, S.M. Holmes, Hierarchical porous structured zeolite composite for removal of ionic contaminants from waste streams and effective encapsulation of hazardous waste, J. Hazard. Mater., 320 (2016) 241–251.
15. J. Ryu, S. Kim, H.J. Hong, J. Hong, M. Kim, T. Ryu, I.S. Park, K.S. Chung, J.S. Jang, B.G. Kim, Strontium ion (Sr²⁺) separation from seawater by hydrothermally structured titanate nanotubes: removal vs. recovery, Chem. Eng. J., 304 (2016) 503–510.
16. L. Zhang, J.Wei, X. Zhao, F. Li, F. Jiang, M. Zhang, X. Cheng, Removal of strontium (II) and cobalt (II) from acidic solution by manganese antimonite, Chem. Eng. J., 302 (2016) 733–743.
17. A. Rengaraj, Y. Haldora, P. Puthiaraj, S.K. Hwang, T. Ryu, J. Shin, Y.S. Huh, Covalent triazine polymer–Fe₃O₄ nanocomposite for strontium ion removal from seawater, Ind. Eng. Chem. Res., 56 (2017) 4984–4992.
18. V. Srivastava, P. Maydannik, M. Sillanpää, Synthesis and characterization of PPy@NiO nano-particles and their use as adsorbent for the removal of Sr (II) from aqueous solutions, J. Mol. Liq., 223 (2016) 395–406.
19. L.Y. Zhang, W. Zhang, Z. Zhou, C.M. Li, γ–Fe₂O₃ nanocrystals-anchored macro/meso-porous graphene as a highly efficient adsorbent toward removal of methylene blue, J. Colloid Interface Sci., 476 (2016) 200–205.
20. A. Gignone, M. Delle Piane, M. Corno, P. Ugliengo, B. Onida, Simulation and experiment reveal a complex scenario for the adsorption of an antifungal drug in ordered mesoporous silica, J. Phys. Chem. C, 119 (2015) 13068–13079.
21. N. Guo, S. Su, B. Liao, S. Ding, W. Sun, Preparation and properties of a novel macro porous Ni²⁺–imprinted chitosan foam adsorbents for adsorption of nickel ions from aqueous solution, Carbohyd. Polym., 165 (2017) 376–383.
22. X. Zhang, B. Gao, A.E. Creamer, Adsorption of VOCs onto engineered carbon materials: A review, J. Hazard. Mater., 338 (2017) 102–123.
23. E. Rangel-Range, J. Weber, J.G. de la Campa, M. Iglesias, E.M. Maya, Pluronic-assisted hydrothermal synthesis of microporous polyimides. Application as supports for heterogenized transition metal catalysts, Microporous Mesoporous Mater., 239 (2017) 287–295.
24. D.F. Izquierdo, M. Yates, P. Lozano, M.I. Burguete, E. García-Verdugo, S.V. Luis, Macroporous polymers tailored as supports for large biomolecules: Ionic liquids as porogenic solvents and as surface modifiers, React. Funct. Polym., 85 (2014) 20–27.
25. Z. Jia, Q. Wang, D. Ren, R. Zhu, Fabrication of one-dimensional mesoporous α–Fe₂O₃ nanostructure via self-sacrificial template and its enhanced Cr (VI) adsorption capacity, Appl. Surf. Sci., 264 (2013) 255–260.
26. A. Quell, T. Sottmann, C. Stubenrauch, Diving into the finestructure of macroporous polymer foams synthesized via emulsion templating: A phase diagram study, Langmuir, 33 (2017) 537–542.
27. M.S. Silverstein, PolyHIPEs: Recent advances in emulsion-templated porous polymers, Prog. Polym. Sci., 39 (2014) 199–234.
28. Y. Zhu, Y. Zheng, L. Zong, F. Wang, A. Wang, Fabrication of magnetic hydroxypropyl cellulose-g-poly(acrylic acid) porous spheres via Pickering high internal phase emulsion for removal of Cu²⁺ and Cd²⁺, Carbohyd. Polym., 149 (2016) 242–250.
29. M. Wickenheisser, T. Paul, C. Janiak, Prospects of monolithic MIL–MOF@poly(NIPAM)HIPE composites as water sorption materials, Microporous Mesoporous Mater., 220 (2016) 258– 269.
30. E.H. Mert, H. Yıldırım, A.T. Üzümcü, H. Kavas, Synthesis and characterization of magnetic polyHIPEs with humic acid surface modified magnetic iron oxide nanoparticles, React. Funct. Polym., 73 (2013) 175–181.
31. Y. Zhu, W. Wang, Y. Zheng, F. Wang, A. Wang, Rapid enrichment of rare-earth metals by carboxymethyl cellulose-based open-cellular hydrogel adsorbent from HIPEs template, Carbohyd. Polym., 140 (2016) 51–58.
32. J. Pan, Q. Qu, J. Cao, D. Yan, J.X. Liu, X.H. Dai, Molecularly imprinted polymer foams with well-defined open-cell structure derived from Pickering HIPEs and their enhanced recognition of λ-cyhalothrin, Chem. Eng. J., 253 (2014) 138–147.
33. J. Pan, Y. Ma, J. Zeng, X.H. Niu, T. Zhang, F.X. Qiu, Y.S. Yan, Facile assembly of hollow polydopamine capsules onto macroporous poly(glycidyl methacrylate) foams for simultaneous removal of λ-cyhalothrin and copper ions, Chem. Eng. J., 302 (2016) 670–681.
34. F. Saadati, M. Rahmani, F. Ghahramani, Synthesis of a novel ion-imprinted polyaniline/hyper-cross-linked polystyrene nanocomposite for selective removal of lead(II) ions from aqueous solutions, Desal. Water Treat., 82 (2017) 210–218.
35. B. Qiu, C. Xu, D. Sun, Q. Wang, H.B. Gu, X. Zhang, Z.H. Guo, Polyaniline coating with various substrates for hexavalent chromium removal, Appl. Surf. Sci., 334 (2015) 7–14.
36. A. Alshameri, C. Yan, X. Lei, Enhancement of phosphate removal from water by TiO₂/Yemeni natural zeolite: preparation, characterization and thermodynamic, Microporous Mesoporous Mater., 196 (2014) 145–157.
37. Y. Gao, C. Chen, X. Tan, H. Xu, K.R. Zhu, Polyaniline-modified 3D-flower-like molybdenum disulfide composite for efficient adsorption/photocatalytic reduction of Cr(VI), J. Colloid Interface Sci., 476 (2016) 62–70.
38. B. Mu, J. Tang, L. Zhang, A.Q. Wang, Preparation, characterization and application on dye adsorption of a well-defined two-dimensional superparamagnetic clay/polyaniline /Fe3O4 nanocomposite, Appl. Surf. Sci., 132–133 (2016) 7–16.
39. X. Liu, C. Cheng, C. Xiao, D.D. Shao, Z.M. Xu, J.Q. Wang, W.J. Wang, Polyaniline (PANI) modified bentonite by plasma technique for U(VI) removal from aqueous solution, Appl. Surf. Sci., 411 (2017) 331–337.
40. M.A. Salem, R.G. Elsharkawy, M.F. Hablas, Adsorption of brilliant green dye by polyaniline/silver nanocomposite: Kinetic, equilibrium, and thermodynamic studies, Eur. Polym. J., 75 (2016) 577–590.
41. Q. Zhou, Y. Wang, J. Xiao, H. Fan, Adsorption and removal of bisphenol A, α-naphthol and β-naphthol from aqueous solution by Fe₃O₄@polyaniline core–shell nanomaterials, Synth. Met., 212 (2016) 113–122.
42. R. Karthik, S. Meenakshi, Removal of Cr(VI) ions by adsorption onto sodium alginate-polyaniline nanofibers, Int. J. Biol. Macromol., 72 (2015) 711–717.
43. K. Zarrini, A.A. Rahimi, F. Alihosseini, H. Fashandi, Highly efficient dye adsorbent based on polyaniline-coated nylon–6 nanofibers, J. Clean. Prod., 142 (2017) 3645–3654.
44. S. Bhattarai, J.S. Kim, Y.S. Yun, Y.S. Lee, Preparation of polyaniline- coated polystyrene nanoparticles for the sorption of silver ions, React. Funct. Polym., 105 (2016) 52–59.
45. O. Ozer, A. Ince, B. Karagoz, N. Bicak, Crosslinked PS-DVB microspheres with sulfonated polystyrene brushes as new generation of ion exchange resins, Desalination, 309 (2013) 141–147.
46. X. Hu, Y. Zhang, K. Tang, G.L. Zou, Hemoglobin-biocatalysts synthesis of a conducting molecular complex of polyaniline and sulfonated polystyrene, Synth. Met., 150 (2005) 1–7.
47. A.M. Youssef, S.A. Mohamed, M.S. Abdel-Aziz, M.E. Abdel-Aziz, G. Turky, S. Kamel, Biological studies and electrical conductivity of paper sheet based on PANI/PS/Ag–NPs nanocomposite, Carbohyd. Polym., 147 (2016) 333–343.
48. Y. Sun, X. Wang, C. Ding, W. Cheng, C. Chen, T. Hayat, X. Wang, Direct synthesis of bacteria-derived carbonceous nanofibers as a highly efficient material for radionuclides elimination, ACS Sustain. Chem. Eng., 4 (2016) 4608–4616.
49. R.M. Ali, H.A. Hamad, M.M. Hussein, G.F. Malash, Potential of using green adsorbent of heavy metal removal from aqueous solutions: adsorption kinetics, isotherm, thermodynamic, mechanism and economic analysis, Ecol. Eng., 91 (2016) 317– 332.
50. T.M. Mututuvari, C.D. Tran, Synergistic adsorption of heavy metal ions and organic pollutants by supramolecular polysaccharide composite materials from cellulose, chitosan and crown ether, J. Hazard. Mater., 264 (2014) 449–459.
51. B. Hu, Q. Hu, D. Xu, C. Chen, Macroscopic and microscopic investigation on adsorption of Sr(II) on sericite, J. Mol. Liq., 225 (2017) 563–568.
52. Y. Zhao, Z. Shao, C. Chen, J. Hu, H. Chen, Effect of environmental conditions on the adsorption behavior of Sr(II) by Na-rectorite, Appl. Clay Sci., 87 (2014) 1–6.
53. H. Hong, J. Ryu, I. Park, T. Ryu, K. Chung, B. Kim, Investigation of the strontium (Sr(II)) adsorption of an alginate microsphere as a low-cost adsorbent for removal and recovery from seawater, J. Environ. Manage., 165 (2016) 263–270.
54. A. Tayyebi, M. Outokesh, S. Moradi, A. Doram, Synthesis and characterization of ultrasound assisted “graphene oxide–magnetite” hybrid, and investigation of its adsorption properties for Sr(II) and Co(II) ions, Appl. Surf. Sci., 353 (2015) 350–362.
55. H. Qi, H. Liu, Y. Gao, Removal of Sr(II) from aqueous solutions using polyacrylamide modified graphene oxide composites, J. Mol. Liq., 208 (2015) 394–401.
56. Y. Song, G. Ye, J. Chen, D. Lv, J. Wang, Wet oxidation of ordered mesoporous carbon FDU–15 by using (NH₄)₂S₂O₈ for fast adsorption of Sr(II): An investigation on surface chemistry and adsorption mechanism, Appl. Surf. Sci., 357 (2015) 1578–1586.
57. Z. Cheng, Z. Gao, W. Ma, Q. Sun, B. Wang, X. Wang, Preparation of magnetic Fe₃O₄ particles modified sawdust as the adsorbent to remove strontium ions, Chem. Eng. J., 209 (2012) 451–457.
58. S. Golczak, A. Kanciurzewska, M. Fahlman, K. Langer, J.J. Langer, Comparative XPS surface study of polyaniline thin films, Solid State Ionics, 179 (2008) 2234–2239.