1. Y. Luo, W. Guo, H.H. Ngo, L.D. Nghiem, F.I. Hai, J. Zhang, S. Liang, X.C. Wang, A review on the occurrence of micropollutants in the aquatic environment and their fate and removal during wastewater treatment, Sci. Total Environ., 473 (2014) 619–641.
  2. D. Ragab, H.G. Gomaa, R. Sabouni, M. Salem, M. Ren, J. Zhu, Micropollutants removal from water using microfiltration membrane modified with ZIF-8 metal organic frameworks (MOFs), Chem. Eng. J., 300 (2016) 273–279.
  3. M.R. Servos, D.T. Bennie, B.K. Burnison, A. Jurkovic, R. McInnis, T. Neheli, A. Schnell, P. Seto, S.A. Smyth, T.A. Ternes, Distribution of estrogens, 17β-estradiol and estrone, in Canadian municipal wastewater treatment plants, Sci. Total Environ., 336 (2005) 155–170.
  4. F. Gagné, C. Blaise, M. Fournier, P.D. Hansen, Effects of selected pharmaceutical products on phagocytic activity in Elliptio complanata mussels, Comp. Biochem. Physiol. C: Toxicol. Pharmacol., 143 (2006) 179–186.
  5. N. Bolong, A.F. Ismail, M.R. Salim, T. Matsuura, A review of the effects of emerging contaminants in wastewater and options for their removal, Desalination, 239 (2009) 229–246.
  6. A. Joss, S. Zabczynski, A. Göbel, B. Hoffmann, D. Löffler, C.S. McArdell, T.A. Ternes, A. Thomsen, H. Siegrist, Biological degradation of pharmaceuticals in municipal wastewater treatment: proposing a classification scheme, Water Res., 40 (2006) 1686–1696.
  7. G.R. Boyd, H. Reemtsma, D.A. Grimm, S. Mitra, Pharmaceuticals and personal care products (PPCPs) in surface and treated waters of Louisiana, USA and Ontario, Canada, Sci. Total Environ., 311 (2003) 135–149.
  8. V. Matamoros, C. Arias, H. Brix, J.M. Bayona, Preliminary screening of small-scale domestic wastewater treatment systems for removal of pharmaceutical and personal care products, Water Res., 43 (2009) 55–62.
  9. J. Mateo-Sagasta, L. Raschid-Sally, A. Thebo, Global Wastewater and Sludge Production, Treatment and Use, in: P. Drechsel, M. Qadir, D. Wichelns, Eds., Wastewater: Economic Asset in an Urbanizing World, Springer Netherlands, Dordrecht, 2015, pp. 15–38.
  10. D. Hayelom, G. Nigus, A. Adhena, Removal of Methylene Blue Dye from textile wastewater using activated carbon prepared from rice husk, IJIAS, 9 (2014) 317–325.
  11. M.A. Barakat, New trends in removing heavy metals from industrial wastewater, Arab. J. Chem., 4 (2011) 361–377.
  12. J.-j. Gao, Y.-b. Qin, T. Zhou, D.-d. Cao, P. Xu, D. Hochstetter, Y.-f. Wang, Adsorption of methylene blue onto activated carbon produced from tea (Camellia sinensis L.) seed shells: kinetics, equilibrium, and thermodynamics studies, J. Zhejiang Univ. Sci. B, 14 (2013) 650–658.
  13. M. Mehrjouei, S. Müller, D. Möller, A review on photocatalytic ozonation used for the treatment of water and wastewater, Chem. Eng. J., 263 (2015) 209–219.
  14. B. Kasprzyk-Hordern, M. Ziółek, J. Nawrocki, Catalytic ozonation and methods of enhancing molecular ozone reactions in water treatment, Appl. Catal., B, 46 (2003) 639–669.
  15. A. Dąbrowska, B.K. Hordern, J. Nawrocki, Aldehydes formation during water disinfection by ozonation and chlorination process, Global Nest J., 7 (2005) 61–71.
  16. H. Dong, G. Zeng, L. Tang, C. Fan, C. Zhang, X. He, Y. He, An overview on limitations of TiO2-based particles for photocatalytic degradation of organic pollutants and the corresponding countermeasures, Water Res., 79 (2015) 128–146.
  17. D. Pathania, S. Sharma, P. Singh, Removal of methylene blue by adsorption onto activated carbon developed from Ficus carica bast, Arab. J. Chem., 10 (2017) S1445–S1451.
  18. S.K. Theydan, M.J. Ahmed, Adsorption of methylene blue onto biomass-based activated carbon by FeCl3 activation: equilibrium, kinetics, and thermodynamic studies, J. Anal. Appl. Pyrolysis, 97 (2012) 116–122.
  19. Z. Sun, C. Li, D. Wu, Removal of methylene blue from aqueous solution by adsorption onto zeolite synthesized from coal fly ash and its thermal regeneration, J. Chem. Technol. Biotechnol., 85 (2010) 845–850.
  20. A.H. Jawad, R.A. Rashid, R.M.A. Mahmuod, M.A.M. Ishak, N.N. Kasim, K. Ismail, Adsorption of methylene blue onto coconut (Cocos nucifera) leaf: optimization, isotherm and kinetic studies, Desal. Wat. Treat., 57 (2016) 8839–8853.
  21. C.-H. Weng, Y.-T. Lin, T.-W. Tzeng, Removal of methylene blue from aqueous solution by adsorption onto pineapple leaf powder, J. Hazard. Mater., 170 (2009) 417–424.
  22. J.-R. Li, R.J. Kuppler, H.-C. Zhou, Selective gas adsorption and separation in metal-organic frameworks, Chem. Soc. Rev., 38 (2009) 1477–1504.
  23. J. Lee, O.K. Farha, J. Roberts, K.A. Scheidt, S.T. Nguyen, J.T. Hupp, Metal-organic framework materials as catalysts, Chem. Soc. Rev., 38 (2009) 1450–1459.
  24. P. Horcajada, T. Chalati, C. Serre, B. Gillet, C. Sebrie, T. Baati, J.F. Eubank, D. Heurtaux, P. Clayette, C. Kreuz, J.-S. Chang, Y.K. Hwang, V. Marsaud, P.-N. Bories, L. Cynober, S. Gil, G. Ferey, P. Couvreur, R. Gref, Porous metal-organic-framework nanoscale carriers as a potential platform for drug delivery and imaging, Nat. Mater., 9 (2010) 172–178.
  25. S. Bourrelly, P.L. Llewellyn, C. Serre, F. Millange, T. Loiseau, G. Férey, Different adsorption behaviors of methane and carbon dioxide in the isotypic nanoporous metal terephthalates MIL-53 and MIL-47, J. Am. Chem. Soc., 127 (2005) 13519–13521.
  26. E. Haque, N.A. Khan, J.H. Park, S.H. Jhung, Synthesis of a metal–organic framework material, iron terephthalate, by ultrasound, microwave, and conventional electric heating: a kinetic study, Chem. Eur. J., 16 (2010) 1046–1052.
  27. L. Zhu, D. Sheng, C. Xu, X. Dai, M.A. Silver, J. Li, P. Li, Y. Wang, Y. Wang, L. Chen, C. Xiao, J. Chen, R. Zhou, C. Zhang, O.K. Farha, Z. Chai, T.E. Albrecht-Schmitt, S. Wang, Identifying the recognition site for selective trapping of 99TcO4 – in a hydrolytically stable and radiation resistant cationic metal–organic framework, J. Am. Chem. Soc., 139 (2017) 14873–14876.
  28. Y. Li, Z. Yang, Y. Wang, Z. Bai, T. Zheng, X. Dai, S. Liu, D. Gui, W. Liu, M. Chen, L. Chen, J. Diwu, L. Zhu, R. Zhou, Z. Chai, T.E. Albrecht-Schmitt, S. Wang, A mesoporous cationic thoriumorganic framework that rapidly traps anionic persistent organic pollutants, Nat. Commun., 8 (2017) 1354.
  29. T. Zheng, Z. Yang, D. Gui, Z. Liu, X. Wang, X. Dai, S. Liu, L. Zhang, Y. Gao, L. Chen, D. Sheng, Y. Wang, J. Diwu, J. Wang, R. Zhou, Z. Chai, T.E. Albrecht-Schmitt, S. Wang, Overcoming the crystallization and designability issues in the ultrastable zirconium phosphonate framework system, Nat. Commun., 8 (2017) 15369.
  30. L. Shi, L. Hu, J. Zheng, M. Zhang, J. Xu, Adsorptive removal of methylene blue from aqueous solution using a Ni-metal organic framework material, J. Dispersion Sci. Technol., 37 (2016) 1226–1231.
  31. E. Haque, J.W. Jun, S.H. Jhung, Adsorptive removal of methyl orange and methylene blue from aqueous solution with a metal-organic framework material, iron terephthalate (MOF-235), J. Hazard. Mater., 185 (2011) 507–511.
  32. A.A. Mohammadi, A. Alinejad, B. Kamarehie, S. Javan, A. Ghaderpoury, M. Ahmadpour, M. Ghaderpoori, Metal-organic framework Uio-66 for adsorption of methylene blue dye from aqueous solutions, Int. J. Environ. Sci. Technol., 14 (2017) 1959–1968.
  33. M. Saghanejhad Tehrani, R. Zare-Dorabei, Highly efficient simultaneous ultrasonic-assisted adsorption of methylene blue and rhodamine B onto metal organic framework MIL-68(Al): central composite design optimization, RSC Adv., 6 (2016) 27416–27425.
  34. J. Gooding, R.G. Compton, C. Brennan, J. Atherton, The dyeing of nylon and cotton cloth with azo dyes: kinetics and mechanism, J. Colloid Interface Sci., 180 (1996) 605–613.
  35. A. Nimibofa, A. Ebelegi, Wankasi, W. Donbebe, Comparative sorption studies of dyes and metal ions by Ni/Al-layered double hydroxide, Int. J. Mater. Prod. Technol., 7 (2017) 25–35.
  36. Z. Anfar, R. El Haouti, S. Lhanafi, M. Benafqir, Y. Azougarh, N. El Alem, Treated digested residue during anaerobic co-digestion of Agri-food organic waste: Methylene blue adsorption, mechanism and CCD-RSM design, J. Environ. Chem. Eng., 5 (2017) 5857–5867.
  37. M.K. Bhunia, J.T. Hughes, J.C. Fettinger, A. Navrotsky, Thermochemistry of paddle wheel MOFs: Cu-HKUST-1 and Zn-HKUST-1, Langmuir, 29 (2013) 8140–8145.
  38. S. Najafi Nobar, Cu-BTC synthesis, characterization and preparation for adsorption studies, Mater. Chem. Phys., 213 (2018) 343–351.
  39. S. Loera-Serna, H. Solis, E. Ortiz, A.L. Martínez-Hernandéz, L. Noreña, Elimination of Methylene Blue and Reactive Black 5 from aqueous solution using HKUST-1, Int. J. Environ. Sci. Technol., 8 (2017) 241–246.
  40. M.A. Zazouli, A. Azari, S. Dehghan, R. Salmani Malekkolae, Adsorption of methylene blue from aqueous solution onto activated carbons developed from eucalyptus bark and Crataegus oxyacantha core, Water Sci. Technol., 74 (2016) 2021.
  41. M.K. Sahu, S. Mandal, S.S. Dash, P. Badhai, R.K. Patel, Removal of Pb(II) from aqueous solution by acid activated red mud, J. Environ. Chem. Eng., 1 (2013) 1315–1324.
  42. Y. Xia, Q. Yao, W. Zhang, L. Zhang, Z. Zhang, M. Zhao, Comparative adsorption of methylene blue by magnetic baker’s yeast and EDTAD-modified magnetic baker’s yeast: equilibrium and kinetic study, Arab. J. Chem., (2018).
  43. S. Lin, Z. Song, G. Che, A. Ren, P. Li, C. Liu, J. Zhang, Adsorption behavior of metal–organic frameworks for methylene blue from aqueous solution, Microporous Mesoporous Mater., 193 (2014) 27–34.
  44. A. Mathews, W.J. Weber, Jr, Effects of external mass transfer and intraparticle diffusion on adsorption rates in slurry reactors, AlChE J., 73 (1977) 166.
  45. A.B. Albadarin, M.N. Collins, M. Naushad, S. Shirazian, G. Walker, C. Mangwandi, Activated lignin-chitosan extruded blends for efficient adsorption of methylene blue, Chem. Eng. J., 307 (2017) 264–272.
  46. G. Sharma, M. Naushad, A. Kumar, S. Rana, S. Sharma, A. Bhatnagar, F.J. Stadler, A.A. Ghfar, M.R. Khan, Efficient removal of coomassie brilliant blue R-250 dye using starch/poly(alginic acid-cl-acrylamide) nanohydrogel, Process Saf. Environ. Prot., 109 (2017) 301–310.
  47. A.A. Alqadami, M. Naushad, Z.A. Alothman, T. Ahamad, Adsorptive performance of MOF nanocomposite for methylene blue and malachite green dyes: kinetics, isotherm and mechanism, J. Environ. Manage., 223 (2018) 29–36.
  48. A. Boukhemkhem, K. Rida, Improvement adsorption capacity of methylene blue onto modified Tamazert kaolin, Adsorpt. Sci. Technol., 35 (2017) 753–773.
  49. E. Daneshvar, A. Vazirzadeh, A. Niazi, M. Kousha, M. Naushad, A. Bhatnagar, Desorption of Methylene blue dye from brown macroalga: effects of operating parameters, isotherm study and kinetic modeling, J. Cleaner Prod., 152 (2017) 443–453.
  50. J. Chang, J. Ma, Q. Ma, D. Zhang, N. Qiao, M. Hu, H. Ma, Adsorption of methylene blue onto Fe3O4/activated montmorillonite nanocomposite, Appl. Clay Sci., 119 (2016) 132–140.
  51. E.I. El-Shafey, S.N.F. Ali, S. Al-Busafi, H.A.J. Al-Lawati, Preparation and characterization of surface functionalized activated carbons from date palm leaflets and application for methylene blue removal, J. Environ. Chem. Eng., 4 (2016) 2713–2724.
  52. K.T. Wong, N.C. Eu, S. Ibrahim, H. Kim, Y. Yoon, M. Jang, Recyclable magnetite-loaded palm shell-waste based activated carbon for the effective removal of methylene blue from aqueous solution, J. Cleaner Prod., 115 (2016) 337–342.
  53. J. Hu, L. Liu, Z. Xiao, Adsorptions of Cd(II) and methylene blue from aqueous solution by silica hybrid hollow spheres, RSC Adv., 5 (2015) 68092–68098.
  54. J. Fu, Z. Chen, M. Wang, S. Liu, J. Zhang, J. Zhang, R. Han, Q. Xu, Adsorption of methylene blue by a high-efficiency adsorbent (polydopamine microspheres): kinetics, isotherm, thermodynamics and mechanism analysis, Chem. Eng. J., 259 (2015) 53–61.
  55. J. Feng, Y. Wang, L. Zou, B. Li, X. He, Y. Ren, Y. Lv, Z. Fan, Synthesis of magnetic ZnO/ZnFe2O4 by a microwave combustion method, and its high rate of adsorption of methylene blue, J. Colloid Interface Sci., 438 (2015) 318–322.
  56. T. Shen, J. Luo, S. Zhang, X. Luo, Hierarchically mesostructured MIL-101 metal–organic frameworks with different mineralizing agents for adsorptive removal of methyl orange and methylene blue from aqueous solution, J. Environ. Chem. Eng., 3 (2015) 1372–1383.
  57. Y. Liu, Y.-J. Liu, Biosorption isotherms, kinetics and thermodynamics, Sep. Purif. Technol., 61 (2008) 229–242.
  58. Y. Liu, H. Xu, Equilibrium, thermodynamics and mechanisms of Ni2+ biosorption by aerobic granules, Biochem. Eng. J., 35 (2007) 174–182.
  59. Y. Liu, Is the free energy change of adsorption correctly calculated?, J. Chem. Eng. Data, 54 (2009) 1981–1985.
  60. É.C. Lima, M.A. Adebayo, F.M. Machado, Kinetic and Equilibrium Models of Adsorption, in: C.P. Bergmann, F.M. Machado, Eds., Carbon Nanomaterials as Adsorbents for Environmental and Biological Applications, Springer International Publishing, Switzerland, 2015, pp. 33–69.
  61. V.J. Inglezakis, A.A. Zorpas, Heat of adsorption, adsorption energy and activation energy in adsorption and ion exchange systems, Desal. Wat. Treat., 39 (2012) 149–157.
  62. K. Li, X. Wang, Adsorptive removal of Pb(II) by activated carbon prepared from Spartina alterniflora: equilibrium, kinetics and thermodynamics, Bioresour. Technol., 100 (2009) 2810-2815.