References

1. R. Azmat, F. Bibi, Impacts of textile waste water on fingerlings of fresh water reservoir, Asian J. Chem., 25 (2013) 9341–9344.
2. S. Dutta, B. Gupta, S.K. Srivastava, A.K. Gupta, Recent advances on the removal of dyes from wastewater using various adsorbents: a critical review, Mater. Adv., 2 (2021) 4497–4531.
3. T. Robinson, G. MacMullan, R. Marchant, P. Nigam, Remediation of dyes textile effluent: critical review on current treatment technologies with a proposed alternative, Bioresour. Technol., 77 (2001) 247–255.
4. A.E. Abdelhamid, A.A. El-Sayed, A.M. Khalil, Polysulfone nanofiltration membranes enriched with functionalized graphene oxide for dye removal from wastewater, J. Polym. Eng., 40 (2020) 833–841.
5. S. Rajendran, M.M. Khan, F. Gracia, J. Qin, V.K. Gupta, S. Arumainathan, Ce³⁺-ion-induced visible-light photocatalytic degradation and electrochemical activity of ZnO/CeO₂ nanocomposite, Sci. Rep., 6 (2016) 31641, doi: 10.1038/srep31641.
6. A.I. Adeogun, R.B. Balakrishnan, Kinetics, isothermal and thermodynamics studies of electrocoagulation removal of basic dye Rhodamine B from aqueous solution using steel electrodes, Appl. Water Sci., 7 (2017) 1711–1723.
7. I.M. Banat, P. Nigam, D. Singh, R. Marchant, Microbial decolorization of textile dye containing effluents:
   a review, Bioresour. Technol., 58 (1996) 217–227.
8. H. El Boujaady, A. El Rhilassi, M. Bennani-Ziatni, R. El Hamri, A. Taitai, J.L. Lacout, Removal of a textile dye by adsorption on synthetic calcium phosphates, Desalination, 275 (2011) 10–16.
9. R. Aouay, S. Jebri, A. Rebelo, J.M.F. Ferreira, I. Khattech, Enhanced cadmium removal from water by hydroxyapatite subjected to different thermal treatments, J. Water Supply Res. Technol. AQUA, 69 (2020) 678–692.
10. S. Jebri, M. Jaouadi, I. Khattech, Precipitation of cadmium in water by the addition of phosphate solutions prepared from digested samples of waste animal bones, Desal. Water Treat., 217 (2021) 253–261.
11. S. Jebri, J.M.F. Ferreira, I. Khattech, Effective removal of heavy metals from water by apatitic tricalcium phosphate subjected to different thermal treatments, Desal. Water Treat., 238 (2021) 207–217.
12. C. Combes, C. Rey, Amorphous calcium phosphates: synthesis, properties and uses in biomaterials, Acta Biomater., 6 (2010) 3362–3378.
13. M. Achchar, C. Lamonier, A. Ezzamarty, M. Lakhdar, J. Leglise, E. Payen, New apatite-based supports prepared by industrial phosphoric acid for HDS catalyst synthesis, C.R. Chim., 12 (2009) 677–682.
14. M.P. Mahabole, R.C. Aiyer, C.V. Ramakrishna, B. Sreedhar, R.S. Khairnar, Synthesis, characterization and gas sensing property of hydroxyapatite ceramic, Bull. Mater. Sci., 28 (2005) 535–545.
15. S. Jebri, I. Khattech, M. Jemal, Standard enthalpy, entropy and Gibbs free energy of formation of “A” type carbonate phosphocalcium hydroxyapatites, J. Chem. Thermodyn., 106 (2016) 84–94.
16. S. Jebri, H. Boughzala, A. Bechrifa, M. Jemal, Structural analysis and thermochemistry of “A” type phosphostrontium carbonate hydroxyapatites, J. Therm. Anal. Calorim., 107 (2012) 963–972.
17. S. Jebri, A. Bechrifa, M. Jemal, Standard enthalpies of formation of “A” type carbonate phosphobaryum hydroxyapatites, J. Therm. Anal. Calorim., 109 (2012) 1059–1067.
18. J.B. Slimen, M. Hidouri, M. Ghouma, E.B. Salem, S.V. Dorozhkin, Sintering of potassium doped hydroxy-fluorapatite bioceramics, Coatings, 11 (2021) 858, doi: 10.3390/coatings11070858.
19. K. Wang, M. Wang, Q. Wang, X. Lu, X. Zhang, Computer simulation of proteins adsorption on hydroxyapatite surfaces with calcium phosphate ions, J. Eur. Ceram. Soc., 37 (2017) 2509–2520.
20. W. Lemlikchi, N. Drouiche, N. Belaicha, N. Oubagha, B. Baaziz, M.O. Mecherri, Kinetic study of the adsorption of textile dyes on synthetic hydroxyapatite in aqueous solution, J. Ind. Eng. Chem., 32 (2015) 233–237.
21. L.M. Skjolding, L. vG Jørgensen, K.S. Dyhr, C.J. Köppl, U.S. McKnight, P. Bauer-Gottwein, P. Mayer, P.L. Bjerg, A. Baun, Assessing the aquatic toxicity and environmental safety of tracer compounds Rhodamine B and Rhodamine WT, Water Res., 197 (2021) 117109, doi: 10.1016/j.watres.2021.117109.
22. D.P. Minh, S. Rio, P. Sharrock, H. Sebei, N. Lyczko, N.D. Tran, M. Raii, A. Nzihou, Hydroxyapatite starting from calcium carbonate and ortophosphoric acid: synthesis, characterization, and applications, J. Mater. Sci., 49 (2014) 4261–4269.
23. Y. Guesmi, H. Agougui, R. Lafi, M. Jabli, A. Hafiane, Synthesis of hydroxyapatite-sodium alginate
    via a co-precipitation technique for efficient adsorption of Methylene blue dye, J. Mol. Liq., 249 (2018) 912–920.
24. I.H.T. Kuete, D.R.T. Tchuifon, G.N. Ndifor-Angwafor, A.T. Kamdem, S.G. Anagho, Kinetic, isotherm and thermodynamic studies of the adsorption of thymol blue onto powdered activated carbons from garcinia cola nut shells impregnated with H₃PO₄ and KOH: non-linear regression analysis, J. Encapsulation Adsorpt. Sci., 10 (2020) 1–27.
25. K. Venkateswarlu, A. Chandra Bose, N. Rameshbabu, X-ray peak broadening studies of nanocrystalline hydroxyapatite by Williamson–Hall analysis, Physica B, 405 (2010) 4256–4261.
26. K. Senthilarasan, A. Ragu, P. Sakthivel, Synthesis and characterization of hydroxyapatite and gelatin doped with magnesium chloride for bone tissue engineering, Int. J. Eng. Res. Technol., 3 (2014) 917–921.
27. S. Lagergren, About the theory of so called adsorption of soluble substances, K. Sven. Vetensk. Handl., 24 (1898) 1–39.
28. Y.S. Ho, Review of second-order models for adsorption systems, J. Hazard. Mater., 136 (2006) 681–689.
29. S.H. Chien, W.R. Clayton, Application of Elovich equation to the kinetics of phosphate release and sorption in soils, Soil Sci. Soc. Am. J., 44 (1980) 265–268.
30. T.W. Weber, R.K. Chakravoti, Pore and solid diffusion models for fixed-bed adsorbers, AlChE J., 20 (1974) 228–238.
31. M. El Haddad, R. Mamouni, N. Saffaj, S. Lazar, Evaluation of performance of animal bone meal as a new low-cost adsorbent for the removal of a cationic dye Rhodamine B from aqueous solutions, J. Saudi Chem. Soc., 20 (2016) S53–S59.
32. K. Jedynak, D. Wideł, N. Rędzia, Removal of Rhodamine B (A Basic Dye) and Acid Yellow 17 (An Acidic Dye) from aqueous solutions by ordered mesoporous carbon and commercial activated carbon, Colloids Interfaces, 30 (2019) 1–16.
33. H. Belhanafi, A. Bakhti, N. Benderdouche, Study of interactions between Rhodamine B and a Beidellite-rich clay fraction, Clay Miner., 55 (2020) 194–202.