References

1. U.B. Deshannavar, R.K. Basavaraj, N.M. Naik, High rate digestion of dairy industry effluent by the up-flow anaerobic fixed-bed reactor, J. Chem. Pharm. Res., 4 (2012) 2895–2899.
2. M.B.S. Shete, Comparative study of various treatments for dairy industry wastewater, IOSR J. Eng., 3 (2013) 42–47.
3. S.S. Madaeni, Y. Mansourpanah, Screening membranes for COD removal from dilute wastewater, Desalination, 197 (2006) 23–32.
4. L.Y.Ng, W.M. Abdul, P.L. Choe, H. Nidal, Polymeric membranes incorporated with metal/metal oxide nanoparticles: a comprehensive review, Desalination, 308 (2013) 15–33
5. Y.R. Chang, Y.J. Lee, D.J. Lee, Membrane fouling during water or wastewater treatments: current research updated, J. Taiwan Inst. Chem. Eng., 94 (2018) 1–9.
6. A. Asatekin, K. Seoktae, E. Menachem, M.M. Anne, Anti-fouling ultrafiltration membranes containing polyacrylonitrile-graftpoly( ethylene oxide) comb copolymer additives, J. Membr. Sci., 298 (2007) 136–46.
7. M. Bellardita, R.G. Camera, V. Loddo, F. Parrino, L. Palmisano, Coupling of the membrane and photocatalytic technologies for selective formation of high added-value chemicals, Catal. Today, 340 (2018) 128–144.
8. A. Vanangamudi, D. Saeki, L.F. Dumée, M. Duke, T. Vasiljevic, H. Matsuyama, X. Yang, Surface-engineered biocatalytic composite membranes for reduced protein fouling and selfcleaning, ACS Appl. Mater. Interfaces, 10 (2018) 27477–27487.
9. M. Kokko, F. Bayerköhler, J. Erben, R. Zengerle, P. Kurz, S. Kerzenmacher, Molybdenum sulfides on carbon support as electrocatalysts for hydrogen evolution in acidic industrial wastewater, Appl. Energy, 190 (2017) 1221–1233.
10. M. Kurian, D.S. Nair, Heterogeneous Fenton behavior of nano nickel-zinc ferrite catalysts in the degradation of 4-chlorophenol from water under neutral conditions, J. Water Process Eng., 8 (2015) e37–e49.
11. J.L. Han, X. Xia, M.R. Haider, W.L. Jiang, Y. Tao, M.J. Liu, A.J. Wang, Functional graphene oxide membrane preparation for organics/inorganic salts mixture separation aiming at advanced treatment of refractory wastewater, Sci. Total Environ., 628–629 (2018) 261–270.
12. S. Natarajan, D.S. Lakshmi, V. Thiagarajan, P. Mrudula, N. Chandrasekaran, A. Mukherjee, Antifouling and anti-algal effects of chitosan nanocomposite (TiO₂/Ag) and pristine (TiO₂ and Ag) films on marine microalgae Dunaliella salina, J. Environ. Chem. Eng., 6 (2018) 6870–6880.
13. T. Das, X. Rocquefelte, R. Laskowski, L. Lajaunie, S. Jobic, P. Blaha, K. Schwarz, Investigation of the optical and excitonic properties of the visible light-driven photocatalytic BiVO4 material, Chem. Mater., 29 (2017) 3380–3386.
14. M. Li, G. Huang, Y. Qiao, J. Wang, Z. Liu, X. Liu, Y. Mei, Biocompatible and freestanding anatase TiO₂ nanomembrane with enhanced photocatalytic performance, Nanotechnology, 24 (2013) 305706.
15. T. Hou, G. Dong, Y. Ye, V. Chen, Enzymatic degradation of bisphenol-A with immobilized laccase on TiO₂ sol-gel coated PVDF membrane, J. Membr. Sci., 469 (2014) 19–30.
16. S. Ramasundaram, A. Son, M.G. Seid, S. Shim, S.H. Lee, Y.C Chung, S.W. Hong, Photocatalytic applications of paper-like poly(vinylidene fluoride)–titanium dioxide hybrids fabricated using a combination of electrospinning and electrospraying, J. Hazard. Mater., 285 (2015) 267–276.
17. S. Ramasundaram, M.G. Seid, J.W. Choe, E.J Kim, Y.C. Chung, K. Cho, S.W. Hong, Highly reusable TiO₂ nanoparticle photocatalyst by direct immobilisation on steel mesh via PVDF coating, electrospraying, and thermal fixation, Chem. Eng. J., 306 (2016) 344–351.
18. H.P. Ngang, B.S. Ooi, A.L. Ahmad, S.O. Lai, Preparation of PVDF–TiO₂ mixed-matrix membrane and its evaluation on dye adsorption and UV-cleaning properties, Chem. Eng. J., 197 (2012) 359–367.
19. H. Song, J. Shao, Y. He, B. Liu, X. Zhong, Natural organic matter removal and flux decline with PEG–TiO₂-doped PVDF membranes by the integration of ultrafiltration with photocatalysis, J. Membr. Sci., 405–406 (2012) 48–56.
20. M. Shaban, A.M. Ashraf, H. AbdAllah, H.M. Abd El-Salam, Titanium dioxide nanoribbons/multi-walled carbon nanotube nanocomposite blended polyethersulfone membrane for brackish water desalination, Desalination, 444 (2018) 129–141.
21. Q. Wang, X. Wang, Z. Wang, J. Huang, Y. Wang, PVDF membranes with simultaneously enhanced permeability and selectivity by breaking the tradeoff effect via atomic layer deposition of TiO2, J. Membr. Sci., 442 (2013) 57–64.
22. I. Kovács, G. Veréb, S. Kertész, C. Hodúr, Z. László, Fouling mitigation and cleanability of TiO₂ photocatalyst-modified PVDF membranes during ultrafiltration of model oily wastewater with different salt contents, Environ. Sci. Pollut. Res., 25 (2018) 34912–34921.
23. J. Aburabie, L.F. Villalobos, K.V. Peinemann, Composite membrane formation by combination of reaction-induced and nonsolvent-induced phase separation, Macromolec. Mater. Eng., 302 (2017) 1700131.
24. J.P. Méricq, J. Mendret, S. Brosillon, C. Faur, High performance PVDF-TiO₂ membranes for water treatment, Chem. Eng. Sci., 123 (2015) 283–291.
25. N. Nady, M.C.R. Franssen, H. Zuilhof, M.S. Mohy, R. Boom, K. Schroën, Modification methods for poly(arylsulfone) membranes: a mini-review focusing on surface modification, Desalination, 275 (2011) 1–9.
26. L.T. Yogarathinam, A. Gangasalam, A.F. Ismail, S. Arumugam, A. Narayanan, The concentration of whey protein from cheese whey effluent using ultrafiltration by a combination of hydrophilic metal oxides and a hydrophobic polymer, J. Chem. Technol. Biotechnol., 93 (2018) 2576–2591.
27. A. Di Mauro, M. Cantarella, G. Nicotra, G. Pellegrino, A. Gulino, M.V. Brundo, V. Privitera, G. Impellizzeri, Novel synthesis of ZnO/PMMA nanocomposites for photocatalytic applications, Sci. Rep., 7 (2017) 40895.
28. K.H. Thebo, X. Qian, Q. Wei, Q. Zhang, H.M. Cheng, W. Ren, Reduced graphene oxide/metal oxide nanoparticles composite membranes for highly efficient molecular separation, J. Mater. Sci. Technol., 34 (2018) 1481–1486.
29. A. Bottino, G. Capannelli, A. Comite, Preparation and characterisation of novel porous PVDF-ZrO₂ composite membranes, Desalination, 146 (2002) 35–40.
30. L. Yan, Y.S. Li, C.B. Xiang, S. Xianda, Effect of nano-sized Al₂O₃-particle addition on PVDF ultrafiltration membrane performance, J. Membr. Sci., 276 (2006) 162–167.
31. L. Yu, Z. Xu, H. Shen, H. Yang, Preparation and characterisation of PVDF – SiO₂ composite hollow fibre UF membrane by sol-gel method, J. Membr. Sci., 337 (2009) 257–265.
32. M. Peyravi, M. Jahanshahi, S. Khalili, Fouling of WO₃ nanoparticleincorporated PSf membranes in ultrafiltration of landfill leachate and dairy a combined wastewaters : An investigation using model, Chin. J. Chem. Eng., 25 (2017) 741–751.
33. J. Kumar, A. Bansal, Photocatalysis by nanoparticles of titanium dioxide for drinking water purification: a conceptual and state-of- art review, Mater. Sci. Forum, 764 (2013) 130–150.
34. S. Leong, A. Razmjou, K. Wang, K. Hapgood, X. Zhang, H. Wang, TiO₂ based photocatalytic membranes : a review, J. Membr. Sci., 472 (2014) 167–184.
35. M.H.D.A. Farahani, V. Vatanpour, A comprehensive study on the performance and antifouling enhancement of the PVDF mixed matrix membranes by embedding different nanoparticulates: clay, functionalized carbon nanotube, SiO₂ and TiO₂, Sep. Purif. Technol., 197 (2018) 372–381.
36. L. Hou, Z. Wang, P. Song, A precise combined complete blocking and cake filtration model for describing the flux variation in membrane filtration process with BSA solution, J. Membr. Sci., 542 (2017) 186–194.
37. M. Hashino, K. Hirami, T. Ishigami, Y. Ohmukai, T. Maruyama, Effect of kinds of membrane materials on membrane fouling with BSA spinneret mixing nonsolvent injection coagulation bath, J. Membr. Sci., 384 (2011) 157–165.
38. D. Zhao, S. Yu, A review of recent advance in fouling mitigation of NF/RO membranes in water treatment: pretreatment, membrane modification, and chemical cleaning, Desal. Water Treat., 55 (2014) 870–891.
39. N. Ismail, W.J. Lau, A.F. Ismail, P. Goh, Preparation and characterization of polysulfone/polyphenylsulfone/titanium dioxide composite ultrafiltration membranes for palm oil mill effluent treatment, Jurnal Teknologi, 65 (2013) 85–94.
40. Y. Ding, B. Ma, H. Liu, J. Qu, Effects of protein properties on ultrafiltration membrane fouling performance in water treatment, J. Environ. Sci., 77 (2018) 273–281.
41. S.R. Saptarshi, A. Duschl, A.L. Lopata, Interaction of nanoparticles with proteins: relation to bio-reactivity of the nanoparticle, J. Nanobiotechnol., 11 (2013) 26.
42. Z. Xu, V.H. Grassian, Bovine serum albumin adsorption on TiO₂ nanoparticle surface : effects of pH and co-adsorption of phosphate on protein-surface interactions and protein structure, J. Phys. Chem. C, 121 (2017) 21763–21771.
43. I.H. Huisman, P. Prádanos, A. Hernández, The effect of proteinprotein and protein-membrane interactions on membrane fouling in ultrafiltration, J. Membr. Sci., 179 (2000) 79–90.
44. M.T. Moghadam, G. Lesage, T. Mohammadi, J.-P. Mericq, J. Mendret, M. Heran, C. Faur, S. Brosillon, M. Hemmati, F. Naeimpoor, Improved antifouling properties of TiO₂/PVDF nanocomposite membranes in UV‐coupled ultrafiltration, J. Appl. Polym. Sci., 132 (2015) 41731.