1. S.R. Shukla, R.S. Pai, Adsorption of Cu(II), Ni(II) and Zn(II) on modified jute fibers, Bioresour. Technol., 96 (2005) 1430–1438.
  2. N.Y. Salkhouri, A. Nouhi, Optimization of the conditions for removing lead by Saccharomysis Servisiae under laboratory conditions, J. Ghazvin. Univ. Med. Sci., 15(2) (2011) 13–21.
  3. M. Malakootian, Z. Darabi-Fard, N. Amirmahani, A. Nasiri, Evaluation of arsenic, copper, lead, cadmium, and iron concentration in drinking water resources of central and Southern Bardsir plain, Iran, in 2014, J Kerman Univ Med Sci., 22(5) (2015) 542–554.
  4. M. Malakootian, N.A. Jaafarzadeh, H. Hossaini, Efficiency of perlite as a low cost adsorbent applied to removal of Pb and Cd from paint industry effluent, Desal. Water Treat., 26 (2011) 243–249.
  5. M. Malakootian, J. Nouri, H. Hossaini, Removal of heavy metals from paint industry’s wastewater using Leca as an available adsorbent, Int J. Environ. Sci. Technol., 6 (2009) 183–190.
  6. M. Malakootian, M. Hashemi, A. Toolabi, A. Nasiri, Investigation of nickel removal using poly(amidoamine) generation 4 dendrimer (PAMAM G4) from aqueous solutions, J. Eng. Res., 6(2) (2018) 13–23.
  7. L.S. Ferreira, M.S. Rodrigues, J.C.M.d. Carvalho, A. Lodi, E. Finocchio, P. Perego, A. Converti, Adsorption of Ni2+, Zn2+ and Pb2+ onto dry biomass of Arthrospira (Spirulina) platensis and Chlorella vulgaris. I. Single metal systems, Chem Eng J., 173 (2011) 326–333.
  8. M. Malakootian, H. Mahdizadeh, A. Nasiri, F. Mirzaienia, M. Hajhoseini, N. Amirmahani, Investigation of the efficiency of microbial desalination cell in removal of arsenic from aqueous solutions, Desalination, 438 (2018) 19–23.
  9. M. Malakootian, L.R. Kalankesh, M. Loloi, Efficiency of hybrid nanoparticles of TiO2/SiO2 in removal of lead from paint industry effluents, J. Mazandaran Univ. Med. Sci., 23 (2013) 244–254.
  10. N. Goyal, S.C. Jain, B. UC, Comparative studies on the microbial adsorption of heavy metals, Adv Environ Res., 7 (2003) 311–319.
  11. M. Malakootian, A. Almasi, H. Hossaini, Pb and Co removal from paint industries effluent using wood ash, Int. J. Environ. Sci. Technol., 5 ( 2008) 217–222.
  12. N. Akhtar, M. Iqbal, S.I. Zafar, J. Iqbal, Biosorption characteristics of unicellular green alga Chlorella sorokiniana immobilized in loofa sponge for removal of Cr(III), Environ Sci., 20 (2008) 231–239.
  13. M. Malakootian, A. Toolabi, S.G. Moussavi, M. Ahmadian, Equilibrium and kinetic modeling of heavy metals biosorption from three different real industrial waste waters on to Ulothrix Zonata Algae, Aust J. Basic Appl. Sci., 5 (2011d) 1030–1037.
  14. S.K. Singh, A. Bansal, M.K. Jha, A. Dey, An integrated approach to remove Cr(VI) using immobilized Chlorella minutissima grown in nutrient rich sewage wastewater, Bioresour. Technol., 104 (2012) 257–265.
  15. M. Malakootian, Z.K. Limoni, M. Malakootian, The efficiency of lead biosorption from industrial wastewater by micro-alga Spirulina platensis, Int. J. Environ Res., 10(3) (2016) 357–366.
  16. A. Al-Homaidan, J. Al-Houri, A. Al-Hazzani, G .Elgaaly, N.M.S. Moubayed, Biosorption of copper ions from aqueous solutions by Spirulina platensis biomass, Arab J. Chem., 7 (2014) 57–62.
  17. Q.-H. Shen, T.-T. Zhi, L.-H. Cheng, X.-H. Xu, H.-L. Chen, Hexavalent chromium detoxification by nonliving Chlorella vulgaris cultivated under tuned conditions, Chem. Eng. J., 228 (2013) 993–1002.
  18. M. Malakootian, A. Tolabi, Gh. Moussavi, Kinetic study and bio-absorption isotherm of heavy metals using the algae Ulothrix Zonata from industrial waste waters, J. Ilam. Univ. Med. Sci., 26 (2012) 37–44.
  19. M.S. Rodrigues, L.S. Ferreira, J.C.M.D. Carvalho, A. Lodi, E. Finocchio, A. Converti, Metal biosorption onto dry biomass of Arthrospira (Spirulina) platensis and Chlorella vulgaris: Multimetal systems, J. Hazard. Mater., 217–218 (2012) 246–255.
  20. Z. Aksu, Binary biosorption of cadmium(II) and nickel(II) onto dried Chlorella vulgaris: Co-ion effect on mono-component, Process Biochem., 41 (2006) 860–868.
  21. Z. Moussavi, A. Rahmati, Removing cadmium from aqueous environments using the nano structure γ-alumina, Water Wastewater J., 9 (2011) 4–20.
  22. A. SarI, Equilibrium, thermodynamic and kinetic studies on aluminum biosorption from aqueous solution by brown algae (Padina pavonica biomass), J. Hazard Mater., 171 (2009) 973–979.
  23. C. Chen, X.K. Wang, Adsorption of Ni(II) from aqueous solution using oxidized multiwall carbon nanotubes, Ind. Eng. Chem. Res., 45 (2006) 9144–9149.
  24. V.K. Gupta, A. Rastogi, Sorption and desorption studies of chromium (VI) from nonviable cyanobacterium nostoc muscorum biomass, J. Hazard. Mater., 154 (2008) 347–354.
  25. Z. Aksu, Competitive biosorption of phenol and chromium (VI) from binary mixtures onto dried anaerobic activated sludge, Biochem. Eng. J., 7 (2001) 183–193.
  26. A. Gholizadeh, M. Kermani, M. Farzadkia, B. Kakavandi, A. Rastegar, Y. Poureshgh, Equilibrium and kinetic models for the absorption of phenolic compounds on chemically modified marine algae: Sistosira index, J. Northern Khorasan Univ. Med. Sci., 4(4) (2012) 683–693.
  27. M. Malakootian, Z. Yousefi, Z.K. Limoni, Investigation of removal of copper by the microscopic green algae of Cholera vulgaris from industrial wastewater, J. Gorgan. Univ. Med. Sci., 18(4) (2016) 1–7.
  28. N. Mohseni, A. Naeimi, J. Sarmad, The role of the cholera algae in removing lead contamination and investigation of the parameters influencing it, the national conference of Iranian environmental research, J. Shahid Mofateh Univ., (2013 ) 73–76.
  29. R. Shokuhi, M. Siboni, N. Ghamar, S. Saeidi, Removing the acid blue dye (AB113) from aqueous solution through absorption on activated red flower: a kinetic and equilibrium study, J. Kurdistan Univ. Med. Sci., 60(2) (2011) 55–65.
  30. M. Malakootian, Z. Yousefi, Z.K. Limoni, Removing zinc from industrial waste waters using the micro-algae green of Chlorella vulgaris, J. Ilam. Univ. Med. Sci., 23(6) (2015) 40–50.
  31. F. Banat, S. Al Asheh, O. Hayajneh, Adsorption of phenol by bentonite, Environ. Pollut., 107(3) (2000) 391–398.
  32. A.H. Mahvi, A. Maleki, A. Eslami, Potential of rice husk and rice husk ash for phenol removal in aqueous systems, Amer, J. Appl. Sci., 1(4) (2004) 321–326.
  33. H. Rezaei, Biosorption of chromium by using Spirulina sp, Arab J. Chem., 11 (2013) 1–8.
  34. M. Malakootian, A. Khazaei, Comparing the efficiency of the nanoparticles of the mixture of zero valent iron and manganese in removing cadmium ion from aqueous solutions, J. Ilam. Univ. Med. Sci., 22(2) (2013) 93–103.
  35. A. Naeimi, J. Sarmad, N. Mohseni, Investigation of the degree of biological absorption and physiological effects of lead in the green algae Chlorella. MSc. Thesis at Guilan Univ., (2013) 50–56.
  36. J. Rincon, F. González, A. Ballester, M.L. Blázquez, J.A. Muñoz, Biosorption of heavy metals by chemically-activated alga Fucus vesiculosus, J. Chem. Technol. Biotechnol., 80 (2005) 1403–1407.
  37. E. Romera, F. Gonzalez, A. Ballester, M.L. Blazquez, J.A. Munoz, Biosorption with algae: a statistical review, Crit. Rev. Biotechnol., 26 (2006) 223–235.
  38. A. Mesdaghinia, A. Mahvi, M. Fazlzadeh, M. Dehghani, B. Heybati, Z. Daliri, Comparing the efficiency of natural Pamis and modified with iron in removing activated Black 5 dye, J. Northern Khorasan Univ. Med. Sci., 5(2) (2013) 449–457.
  39. ZMW. Chen, M. Han, Biosorption of nickel and copper onto treated alga (Undaria pinnatifida): application of isotherm and kinetic models, J. Hazard. Mater., 155 (2008) 327–333.
  40. A.M. Pistorius, W.J. DeGrip, T.A. Egorova-Zachernyuk, Monitoring of biomass composition from microbiological sources by means of FT-IR spectroscopy, Biotechnol. Bioeng., 103 (2009) 123–129.