References

1. T.E. Cloete, M. Kwaadsteniet, M. Botes, M. López-Romero, Nano technology in water treatment applications, Caister Academic Press, Norfolk, 2010.
2. M. Mikhaylova, D.K. Kim, N. Bobrysheva, M. Osmolowsky, V. Semenov, T. Tsakalakos, M. Muhammed, Super paramagnetism of magnetite nanoparticles: dependence on surface modification, Langmuir, 20 (2004) 2472–2477.
3. Q. Li, S. Mahendra, D.Y. Lyon, L. Brunet, M.V. Liga, D. Li, P.J.J. Alvarez, Antimicrobial nano materials for water disinfection and microbial control: Potential applications and implications, Water Res., 42 (2008) 4591–4602.
4. C. Okoli, M. Boutonnet, S. Järås, G. Rajarao-Kuttuva, Protein-functionalized magnetic iron oxide nanoparticles: time efficient potential-water treatment, J. Nanopart. Res., 14 (2012) 1–9.
5. B. Bina, M. Mehdinejad, G. Dalhammer, G. Rajarao, M. Nikaeen, H.M. Attar, Effectiveness of Moringa oleifera coagulant protein as natural coagulant aid in removal of turbidity and bacteria from turbid waters, World Acad. Sci. Eng. Technol., 4 (2010) 261–263.
6. C.-Y. Yin, Emerging usage of plant-based coagulants for water and wastewater treatment, Process Biochem., 45 (2010) 1437–1444.
7. N. Poumaye, J. Mabingui, P. Lutgen, M. Bigan, Contribution to the clarification of surface water from the Moringa oleifera: Case M’Poko River to Bangui, Central African Republic, Chem. Eng. Res. Des., 90 (2012) 2346–2352.
8. A. Ndabigengesere, K.S. Narasiah, Quality of water treated by coagulation using Moringa oleifera seeds, Water Res., 32 (1998) 781–791.
9. S.A.A. Jahn, Using Moringa seeds as coagulants in developing countries (PDF), J. AWWA, 80 (1988) 43–50.
10. K.A. Ghebremichael, K.R. Gunaratna, H. Henriksson, H. Brumer, G. Dalhammar, A simple purification and activity assay of the coagulant protein from Moringa oleifera seed, Water Res., 39 (2005) 2338–2344.
11. K.C. Cardoso, R. Bergamasco, E.S. Cossich, L.C.K. Moraes, Otimizing mixture and decantation times in the process of coagulation/flocculation of raw water using Moringa oleifera Lam, Acta Sci-Technol., 30 (2008) 193–198.
12. M.N. Alo, C. Anyim, M. Elom, Coagulation and antimicrobial activities of Moringa oleifera seed storage at 3°C temperature in turbid water, Adv. Appl. Sci. Res., 3 (2012) 887–894.
13. J.-Y. Bottero, J. Rose, M.R. Wiesner, Nano technologies: Tools for sustainability in a new wave of water treatment processes, Integr. Environ. Assess. Manage., 2 (2006) 391–395.
14. N. Savage, M. Diallo, Nano materials and water purification: opportunities and challenges, J. Nanopart. Res., 7 (2005) 331–342.
15. J. Theron, J.A. Walker, T.E. Cloete, Nano technology and water treatment: applications and emerging opportunities, Crit. Rev. Microbiol., 34 (2008) 43–69.
16. R.D. Ambashta, M. Sillanpää, Water purification using magnetic assistance: A review, J. Hazard. Mater., 180 (2010) 38–49.
17. H. Guo, F. Ma, X. Feng, X. Lou, M.O. Tade, Application of iron oxide based nano materials (NMs) in magnetic assisted chemical separation (MACS) processes for water/wastewater treatment, Adv. Mater. Res., 610–613 (2013) 1242–1251.
18. M.F. Silva, E.A.G. Pineda, R. Bergamasco, Aplicação de Óxidos de Ferro Nanoestruturados como Adsorventes e Fotocatalizadores na Remoção de Poluentes de Águas Residuais, Quim. Nova, 38 (2015) 393–398.
19. APHA, Standard methods for the examination of water and wastewater, American Public Health Association (APHA): Washington, DC, USA, 2005.
20. M.F. Silva, L.A.S. de Oliveira, M.A. Ciciliati, L.T. Silva, B.S. Pereira, A.A.W. Hechenleitner, D.M.F. Oliveira, K.R. Pirota, F.F. Ivashita, J.A. Paesano, J.M. Pastor, J.I. Perez-Landazabal, E.A.G. Pineda, Nano metric particle size and phase controlled synthesis and characterization of g-Fe₂O₃ or (a+g)-Fe₂O₃ by a modified sol-gel method, J. Appl. Phys., 114 (2013) 104311–104317.
21. S.A. Muyibi, S.A. Abbas, M.J.M.M. Noor, F.R. Ahmadun, Enhanced coagulation efficiency of Moringa oleifera seeds through selective oil extraction, IIUM Eng. J., 4 (2003) 1–11.
22. M.C. Bongiovani, F.P. Camacho, L. Nishi, P. Ferri Coldebella, K. Cardoso Valverde, A.M.S. Vieira, R. Bergamasco, Improvement of the coagulation/flocculation process using a combination of Moringa oleifera Lam with anionic polymer in water treatment, Environ. Technol., 35 (2014) 2227–2236.
23. T.R.T. dos Santos, M.C. Bongiovani, M.F. Silva, L. Nishi, P.F. Coldebella, M.F. Vieira, R. Bergamasco, Trihalomethanes minimization in drinking water by coagulation/flocculation/ sedimentation with natural coagulant Moringa oleifera Lam and activated carbon filtration, Can. J. Chem. Eng., 94 (2016) 1277–1284.
24. J. Sánchez-Martín, K. Ghebremichael, J. Beltrán-Heredia, Comparison of single-step and two-step purified coagulants from Moringa oleifera seed for turbidity and DOC removal, Bioresour. Technol., 101 (2010) 6259–6261.
25. G.S. Madrona, G.B. Serpelloni, A.M.S. Vieira, L. Nishi, K.C. Cardoso, R. Bergamasco, Study of the effect of saline solution on the extraction of the Moringa oleifera seed’s active component for water treatment, Water Air Soil Pollut., 211 (2010) 409–415.
26. T. Okuda, A.U. Baes, W. Nishijima, M. Okada, Isolation and characterization of coagulant extracted from Moringa oleifera seed by salt solution, Water Res., 35 (2001) 405–410.
27. S. Katayon, S.C. Ng, M.M.N.M. Johari, L.A.A. Ghani, Preservation of coagulation efficiency of Moringa oleifera, a natural coagulant, Biotechnol. Bioprocess Eng., 11 (2006) 489–495.
28. S. Katayon, M.J. Megat Mohd Noor, M. Asma, A.M. Thamer, A.G. Liew Abdullah, A. Idris, A.M. Suleyman, M.B. Aminuddin, B.C. Khor, Effects of storage duration and temperature of Moringa oleifera stock solution on its performance in coagulation, Int. J. Eng. Technol., 1 (2004) 146–151.
29. T.R.T. Santos, M.F. Silva, L. Nishi, A.M.S. Vieira, M.R. Fagundes-Klen, M.B. Andrade, M.F. Vieira, R. Bergamasco, Development of a magnetic coagulant based on Moringa oleifera seed extract for water treatment, Environ. Sci. Pollut. Res., 23 (2016) 7692–7700.
30. M. Gotic, S. Music, Mössbauer, FT-IR and FE SEM investigation of iron oxides precipitated from FeSO₄ solutions, J. Mol. Struct., 834–836 (2007) 445–453.
31. D. Predoi, A study on iron oxide nanoparticles coated with dextrin obtained by coprecipitation, Dig. J. Nanomater. Bios., 2 (2007) 169–173.
32. H.M. Kwaambwa, R. Maikokera, Infrared and circular dichroism spectroscopic characterisation of secondary structure components of a water treatment coagulant protein extracted from Moringa oleifera seeds, Colloids Surf. B., 64 (2008) 118–125.
33. N. Ghaemi, S.S. Madaeni, P. Daraei, H. Rajabi, S. Zinadini, A. Alizadeh, R. Heydari, M. Beygzadeh, S. Ghouzivand, Polyether sulfone membrane enhanced with iron oxide nanoparticles for copper removal from water: Application of new functionalized Fe₃O₄ nanoparticles, Chem. Eng. J., 263 (2015) 101–112.
34. U. Schwertmann, R.M. Cornell, Iron oxides in the laboratory: Preparation and Characterization, Wiley-VCH Verlag GmbH, Weinheim, 2007.
35. S. Yu, G.M. Chow, Carboxyl group (-CO₂H) functionalized ferrimagnetic iron oxide nanoparticles for potential bio-applications, J. Mater. Chem., 14 (2004) 2781–2786.
36. M.F. Silva, A.A.W. Hechenleitner, D.M.F. de Oliveira, M. Agüeros, R. Peñalva, J.M. Irache, E.A.G. Pineda, Optimization of maghemite-loaded PLGA nano spheres for biomedical applications, Eur. J. Pharm. Sci., 49 (2013) 343–351.
37. A.T.A. Baptista, P.F. Coldebella, P.H.F. Cardines, R.G. Gomes, M.F. Vieira, R. Bergamasco, A.M.S. Vieira, Coagulation–flocculation process with ultra filtered saline extract of Moringa oleifera for the treatment of surface water, Chem. Eng. J., 276 (2015) 166–173.
38. L.N. Okassa, H. Marchais, L. Douziech-Eyrolles, K. Herve, S. Cohen-Jonathan, E. Munnier, M. Souce, C. Linassier, P. Dubois, I. Chourpa, Optimization of iron oxide nanoparticles encapsulation within poly (D,L-lactide-co-glycolide) sub-micron particles, Eur. J. Pharm. Biopharm., 67 (2007) 31–38.
39. M.F. Silva, M.A. Ciciliatti, A.A.W. Hechenleitner, R. Penãlva, M. Agüeros, J.M. Irache, A.J.A.. de Oliveira, A.A. Farooqi, E.A.G. Pineda, Super paramagnetic maghemite loaded poly (μ-caprolactone) nano capsules: characterization and synthesis optimization, Matéria (Rio de Janeiro), 19 (2014) 40–52.
40. W.M.S. Alabdraba, M.B. Albayati, A.Y. Radeef, M.M. Rejab, Influence of magnetic field on the efficiency of the coagulation process to remove turbidity from water, Int. Rev. Chem. Eng., 5(2013) 1–8.
41. A.-H. Lu, E.L. Salabas, F. Schüth, Magnetic nanoparticles: synthesis, protection, functionalization, and application, Angew. Chem. Int. Ed., 46 (2007) 1222–1244.
42. M. Faraji, Y. Yamini, M. Rezaee, Magnetic nanoparticles: Synthesis, stabilization, functionalization, characterization, and applications, J. Iran. Chem., 7 (2010) 1–37.
43. P.A.V.L. Monaco, A.T. Matos, I.C.A. Ribeiro, F.S. Nascimento, A.P. Sarmento, Utilização de extrato de sementes de moringa como agente coagulante no tratamento de água para abastecimento e águas residuárias, Rev. Ambiente Água, 5 (2010) 222–231.
44. E.N. Ali, S.A. Muyibi, H.M. Salleh, M.Z. Alam, M.R.M. Salleh, Production of natural coagulant from Moringa oleifera seed for application in treatment of low turbidity water, J. Water Resour. Prot., 2 (2010) 1–8.
45. K.C. Valverde, L. Nishi, A.M. Salcedo Vieira, M.C. Bongiovani, P.F. Coldebella, G.S. Madrona, O.A.A. dos Santos, R. Bergamasco, Optimization of process conditions in water treatment through coagulation diagrams, using Moringa oleifera Lam and aluminium sulphate, Desal. Water Treat., 56 (2015) 1787–1792.
46. L. Heller, V.L. de Pádua, Abastecimento de água para consumo humano, UFMG, Belo Horizonte, 2006.
47. G.S. Madrona, I.G. Branco, V.J. Seolin, B.D. Alves, M.R. Fagundes-Klen, R. Bergamasco, Evaluation of extracts of Moringa oleifera Lam seeds obtained with NaCl and their effects on water treatment, Acta Sci-Technol., 34 (2012) 289–293.