Abstract
Heavy metals are discharged into aquatic environment and causes serious problems to the environment, human’s health, and other organisms. The industrial effluents contain high concentration of heavy metals that should be treated by different technologies. Numerous technologies have been widely used for the remediation of heavy metals such as chemical precipitation, ion exchange, membrane filtration, adsorption, coagulation-flocculation, floatation, electrochemical treatment, bioremediation, and photocatalysis. Among these technologies, photocatalysis has gained much attention due to chemical, physical, and electrical properties of heterogeneous semiconductor nano-photocatalysis. Bismuth vanadate is an n-type semiconductor photocatalyst having 2.4 eV band gap that was widely used from several decades having three monoclinic, tetragonal, and tetragonal zircon structures, but it also have some limitation that can be overcome by modification with metals or non-metals to gain high removal efficiency of heavy metals. This modification can tune its photocatalytic properties like band gap, absorption capacity, and surface area resulting in high photocatalytic performance towards heavy metals detoxification.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Acheampong MA, Meulepas RJ, Lens PN (2010) Removal of heavy metals and cyanide from gold mine wastewater. J Chem Technol Biotechnol 85(5):590–613
Aderhold D, Williams C, Edyvean R (1996) The removal of heavy-metal ions by seaweeds and their derivatives. Bioresour Technol 58(1):1–6
Ahmaruzzaman M (2011) Industrial wastes as low-cost potential adsorbents for the treatment of wastewater laden with heavy metals. Adv Colloid Interf Sci 166(1–2):36–59
Ahmed MJK, Ahmaruzzaman M (2016) A review on potential usage of industrial waste materials for binding heavy metal ions from aqueous solutions. Journal of Water Process Engineering 10:39–47
Akbal F, Camcı S (2011) Copper, chromium and nickel removal from metal plating wastewater by electrocoagulation. Desalination 269(1–3):214–222
Akhtar T, Zia-ur-Rehman M, Naeem A, Nawaz R, Ali S, Murtaza G, Maqsood MA, Azhar M, Khalid H, Rizwan M (2017) Photosynthesis and growth response of maize (Zea mays L.) hybrids exposed to cadmium stress. Environ Sci Pollut Res 24(6):5521–5529
Almeida CC d, Costa PRF d, Melo MJ d M, Santos EV d, Martínez-Huitle CA (2014) Application of electrochemical technology for water treatment of Brazilian industry effluents. J Mex Chem Soc 58(3):276–286
Arney, D. H. (2011) Flux synthesis of photocatalytic transition metal oxides: North Carolina State University
Bai Y, Bartkiewicz B (2009) Removal of cadmium from wastewater using ion exchange resin Amberjet 1200H columns. Pol J Environ Stud 18(6)
Barakat M, Schmidt E (2010) Polymer-enhanced ultrafiltration process for heavy metals removal from industrial wastewater. Desalination 256(1–3):90–93
Bell L, DiGangi J, Weinberg J (2014) An NGO introduction to mercury pollution and the Minamata convention on mercury. IPEN, Chicago, p 11
Benatti CT, Tavares CRG, Lenzi E (2009) Sulfate removal from waste chemicals by precipitation. J Environ Manag 90(1):504–511
Bilal M, Shah JA, Ashfaq T, Gardazi SMH, Tahir AA, Pervez A, Haroon H, Mahmood Q (2013) Waste biomass adsorbents for copper removal from industrial wastewater—a review. J Hazard Mater 263:322–333
Boamah PO, Huang Y, Hua M, Zhang Q, Wu J, Onumah J, Sam-Amoah LK, Boamah PO (2015) Sorption of heavy metal ions onto carboxylate chitosan derivatives—a mini-review. Ecotoxicol Environ Saf 116:113–120
Boparai HK, Joseph M, O’Carroll DM (2011) Kinetics and thermodynamics of cadmium ion removal by adsorption onto nanozerovalent iron particles. J Hazard Mater 186(1):458–465
Callender E (2003) Heavy metals in the environment-historical trends. Treatise on geochemistry 9:612
Chen D, Ray AK (2001) Removal of toxic metal ions from wastewater by semiconductor photocatalysis. Chem Eng Sci 56(4):1561–1570
Chen D, Sivakumar M, Ray AK (2000) Heterogeneous photocatalysis in environmental remediation. Dev Chem Eng Miner Process 8(5–6):505–550
Coman V, Robotin B, Ilea P (2013) Nickel recovery/removal from industrial wastes: a review. Resour Conserv Recycl 73:229–238
Crini G (2005) Recent developments in polysaccharide-based materials used as adsorbents in wastewater treatment. Prog Polym Sci 30(1):38–70
Darwent JR, Mills A (1982) Photo-oxidation of water sensitized by WO 3 powder. J Chem Soc Faraday Trans 2 78(2):359–367
Das J, Sarkar A, Sil PC (2015) Hexavalent chromium induces apoptosis in human liver (HepG2) cells via redox imbalance. Toxicol Rep 2:600–608
De Almeida DG, Soares Da Silva R d CF, Luna JM, Rufino RD, Santos VA, Banat IM et al (2016) Biosurfactants: promising molecules for petroleum biotechnology advances. Front Microbiol 7:1718
Duffus JH (2002) Heavy metals a meaningless term. Pure Appl Chem 74(5):793–807
Ellis BL, Knauth P, Djenizian T (2014) Three-dimensional self-supported metal oxides for advanced energy storage. Adv Mater 26(21):3368–3397
Fu F, Wang Q (2011) Removal of heavy metal ions from wastewaters: a review. J Environ Manag 92(3):407–418
Fujishima A, Honda K (1972) Electrochemical photolysis of water at a semiconductor electrode. nature 238(5358):37–38
Gautam RK, Sharma SK, Mahiya S, Chattopadhyaya MC (2014) Contamination of heavy metals in aquatic media: transport, toxicity and technologies for remediation. Heavy metals in water: Presence, removal and safety:1–24
Ghernaout D, Al-Ghonamy AI, Boucherit A, Ghernaout B, Naceur MW, Messaoudene NA et al (2015) Brownian motion and coagulation process. Am J Environ Prot 4:1–15
Glaze, W. H., Kang, J.-W., & Chapin, D. H. (1987) The chemistry of water treatment processes involving ozone, hydrogen peroxide and ultraviolet radiation
González P, Pliego-Cuervo Y (2014) Adsorption of Cd (II), Hg (II) and Zn (II) from aqueous solution using mesoporous activated carbon produced from Bambusa vulgaris striata. Chem Eng Res Des 92(11):2715–2724
Guieysse B, Norvill ZN (2014) Sequential chemical–biological processes for the treatment of industrial wastewaters: review of recent progresses and critical assessment. J Hazard Mater 267:142–152
Gupta VK, Rastogi A, Nayak A (2010) Biosorption of nickel onto treated alga (Oedogonium hatei): application of isotherm and kinetic models. J Colloid Interface Sci 342(2):533–539
Hamadi NK, Chen XD, Farid MM, Lu MG (2001) Adsorption kinetics for the removal of chromium (VI) from aqueous solution by adsorbents derived from used tyres and sawdust. Chem Eng J 84(2):95–105
Hashim MA, Mukhopadhyay S, Sahu JN, Sengupta B (2011) Remediation technologies for heavy metal contaminated groundwater. J Environ Manag 92(10):2355–2388
Hoseinian FS, Irannajad M, Nooshabadi AJ (2015) Ion flotation for removal of Ni (II) and Zn (II) ions from wastewaters. Int J Miner Process 143:131–137
Hubicki, Z. & Kołodyńska, D. (2012) Selective removal of heavy metal ions from waters and waste waters using ion exchange methods Ion Exchange Technologies: InTech
Hussain A, Ali S, Rizwan M, ur Rehman MZ, Javed MR, Imran M et al (2018) Zinc oxide nanoparticles alter the wheat physiological response and reduce the cadmium uptake by plants. Environ Pollut 242:1518–1526
Ibhadon AO, Fitzpatrick P (2013) Heterogeneous photocatalysis: recent advances and applications. Catalysts 3(1):189–218
Kanold JM, Wang J, Brümmer F, Šiller L (2016) Metallic nickel nanoparticles and their effect on the embryonic development of the sea urchin Paracentrotus lividus. Environ Pollut 212:224–229
Karhu M, Leiviskä T, Tanskanen J (2014) Enhanced DAF in breaking up oil-in-water emulsions. Sep Purif Technol 122:231–241
Kikuchi T, Tanaka S (2012) Biological removal and recovery of toxic heavy metals in water environment. Crit Rev Environ Sci Technol 42(10):1007–1057
Kirman C, Hays S, Aylward L, Suh M, Harris M, Thompson C et al (2012) Physiologically based pharmacokinetic model for rats and mice orally exposed to chromium. Chem Biol Interact 200(1):45–64
Kolesnikov A, Kuznetsov V, Kolesnikov V, Kapustin YI (2015) The role of surfactants in the electroflotation extraction of copper, nickel, and zinc hydroxides and phosphates. Theor Found Chem Eng 49(1):1–9
Kosolapov D, Kuschk P, Vainshtein M, Vatsourina A, Wiessner A, Kästner M et al (2004) Microbial processes of heavy metal removal from carbon-deficient effluents in constructed wetlands. Eng Life Sci 4(5):403–411
Kuan Y-C, Lee I-H, Chern J-M (2010) Heavy metal extraction from PCB wastewater treatment sludge by sulfuric acid. J Hazard Mater 177(1–3):881–886
Kumar PS, Ramakrishnan K, Gayathri R (2010) Removal of nickel (II) from aqueous solutions by ceralite IR 120 cationic exchange resins. J Eng Sci Technol 5(2):232–243
Lee CM, Palaniandy P, Dahlan I (2017) Pharmaceutical residues in aquatic environment and water remediation by TiO2 heterogeneous photocatalysis: a review. Environ Earth Sci 76(17):611
Lesmana SO, Febriana N, Soetaredjo FE, Sunarso J, Ismadji S (2009) Studies on potential applications of biomass for the separation of heavy metals from water and wastewater. Biochem Eng J 44(1):19–41
Letterman, R. D. & Association, A. W. W (1999) Water quality and treatment: McGraw-Hill
Lewis AE (2010) Review of metal sulphide precipitation. Hydrometallurgy 104(2):222–234
Li J, Zhang C, Lin J, Yin J, Xu J, Chen Y (2018) Evaluating the bioavailability of heavy metals in natural-zeolite-amended aquatic sediments using thin-film diffusive gradients. Aquaculture and fisheries 3(3):122–128
Lo W, Chua H, Lam K-H, Bi S-P (1999) A comparative investigation on the biosorption of lead by filamentous fungal biomass. Chemosphere 39(15):2723–2736
Loukidou MX, Matis KA, Zouboulis AI, Liakopoulou-Kyriakidou M (2003) Removal of As (V) from wastewaters by chemically modified fungal biomass. Water Res 37(18):4544–4552
Lowry GV, Johnson KM (2004) Congener-specific dechlorination of dissolved PCBs by microscale and nanoscale zerovalent iron in a water/methanol solution. Environ Sci Technol 38(19):5208–5216
Madaeni S, Mansourpanah Y (2003) COD removal from concentrated wastewater using membranes. Filtr Sep 40(6):40–46
Mahajan G, Sud D (2013) Application of ligno-cellulosic waste material for heavy metal ions removal from aqueous solution. J Environ Chem Eng 1(4):1020–1027
Mahmoud MR, Lazaridis NK, Matis KA (2015) Study of flotation conditions for cadmium (II) removal from aqueous solutions. Process Saf Environ Prot 94:203–211
Majumder S, Gangadhar G, Raghuvanshi S, Gupta S (2015) Biofilter column for removal of divalent copper from aqueous solutions: performance evaluation and kinetic modeling. J of Water Process Eng 6:136–143
Majumder, S., Gupta, S., & Raghuvanshi, S. (2014) Removal of dissolved metals by bioremediation. Heavy Metals in Water: Presence, Removal and Safety, 44–56
Malik A (2004) Metal bioremediation through growing cells. Environ Int 30(2):261–278
Mangun CL, Yue Z, Economy J, Maloney S, Kemme P, Cropek D (2001) Adsorption of organic contaminants from water using tailored ACFs. Chem Mater 13(7):2356–2360
Moghadasali R, Mutsaers HA, Azarnia M, Aghdami N, Baharvand H, Torensma R et al (2013) Mesenchymal stem cell-conditioned medium accelerates regeneration of human renal proximal tubule epithelial cells after gentamicin toxicity. Exp Toxicol Pathol 65(5):595–600
Mori K, Yamashita H (2010) Progress in design and architecture of metal nanoparticles for catalytic applications. Phys Chem Chem Phys 12(43):14420–14432
Mutamim NSA, Noor ZZ, Hassan MAA, Olsson G (2012) Application of membrane bioreactor technology in treating high strength industrial wastewater: a performance review. Desalination 305:1–11
Nalbandian, M. J.-C. (2014) Development and optimization of chemically-active electrospun nanofibers for treatment of impaired water sources. UC Riverside
O’Connell DW, Birkinshaw C, O’Dwyer TF (2008) Heavy metal adsorbents prepared from the modification of cellulose: a review. Bioresour Technol 99(15):6709–6724
Pan L, Muhammad T, Ma L, Huang Z-F, Wang S, Wang L, Zou JJ, Zhang X (2016) MOF-derived C-doped ZnO prepared via a two-step calcination for efficient photocatalysis. Appl Catal B Environ 189:181–191
Patil DS, Chavan SM, Oubagaranadin JUK (2016) A review of technologies for manganese removal from wastewaters. J Environ Chem Eng 4(1):468–487
Praspaliauskas M, Pedisius N, Gradeckas A (2018) Accumulation of heavy metals in stemwood of forest tree plantations fertilized with different sewage sludge doses. J For Res 29(2):347–361
Qin J-J, Wai M-N, Oo M-H, Wong F-S (2002) A feasibility study on the treatment and recycling of a wastewater from metal plating. J Membr Sci 208(1–2):213–221
Qu Y, Duan X (2013) Progress, challenge and perspective of heterogeneous photocatalysts. Chem Soc Rev 42(7):2568–2580
Rai M, Yadav A, Gade A (2009) Silver nanoparticles as a new generation of antimicrobials. Biotechnol Adv 27(1):76–83
Rashed IGA-A, Afify HA, Ahmed AE-M, Ayoub MAE-S (2013) Optimization of chemical precipitation to improve the primary treatment of wastewater. Desalin Water Treat 51(37–39):7048–7056
Renault F, Sancey B, Badot P-M, Crini G (2009) Chitosan for coagulation/flocculation processes–an eco-friendly approach. Eur Polym J 45(5):1337–1348
Rengaraj S, Joo CK, Kim Y, Yi J (2003) Kinetics of removal of chromium from water and electronic process wastewater by ion exchange resins: 1200H, 1500H and IRN97H. J Hazard Mater 102(2–3):257–275
Rizwan M, Ali S, Qayyum MF, Ok YS, Adrees M, Ibrahim M, Zia-ur-Rehman M, Farid M, Abbas F (2017a) Effect of metal and metal oxide nanoparticles on growth and physiology of globally important food crops: a critical review. J Hazard Mater 322:2–16
Rizwan M, Ali S, Qayyum MF, Ok YS, Zia-ur-Rehman M, Abbas Z, Hannan F (2017b) Use of Maize (Zea mays L.) for phytomanagement of Cd-contaminated soils: a critical review. Environ Geochem Health 39(2):259–277
Rizwan M, Ali S, ur Rehman MZ, Rinklebe J, Tsang DC, Bashir A et al (2018) Cadmium phytoremediation potential of Brassica crop species: a review. Sci Total Environ 631:1175–1191
Rubio J, Souza M, Smith R (2002) Overview of flotation as a wastewater treatment technique. Miner Eng 15(3):139–155
Salmani MH, Davoodi M, Ehrampoush MH, Ghaneian MT, Fallahzadah MH (2013) Removal of cadmium (II) from simulated wastewater by ion flotation technique. Iranian J Environ Health Sci Eng 10(1):16
Sardar K, Walton RI (2012) Hydrothermal synthesis map of bismuth titanates. J Solid State Chem 189:32–37
Schwarz JA, Contescu C, Contescu A (1995) Methods for preparation of catalytic materials. Chem Rev 95(3):477–510
Shan G, Surampalli RY, Tyagi RD, Zhang TC (2009) Nanomaterials for environmental burden reduction, waste treatment, and nonpoint source pollution control: a review. Front Environ Sci Eng China 3(3):249–264
Shen Z, Xie S, Fan W, Zhang Q, Xie Z, Yang W, Wang Y, Lin J, Wu X, Wan H, Wang Y (2016) Direct conversion of formaldehyde to ethylene glycol via photocatalytic carbon–carbon coupling over bismuth vanadate. Cat Sci Technol 6(17):6485–6489
Singh S, Rai B, Rai L (2001) Ni (II) and Cr (VI) sorption kinetics by Microcystis in single and multimetallic system. Process Biochem 36(12):1205–1213
Trellu C, Mousset E, Pechaud Y, Huguenot D, Van Hullebusch ED, Esposito G et al (2016) Removal of hydrophobic organic pollutants from soil washing/flushing solutions: a critical review. J Hazard Mater 306:149–174
Xu J, Cao Z, Zhang Y, Yuan Z, Lou Z, Xu X, Wang X (2018) A review of functionalized carbon nanotubes and graphene for heavy metal adsorption from water: preparation, application, and mechanism. Chemosphere 195:351–364
Xu P, Zeng GM, Huang DL, Feng CL, Hu S, Zhao MH, Lai C, Wei Z, Huang C, Xie GX, Liu ZF (2012) Use of iron oxide nanomaterials in wastewater treatment: a review. Sci Total Environ 424:1–10
Xu Y-H, Liu C-J, Chen M-J, Liu Y-Q (2011) A review in visible-light-driven BiVO 4 photocatalysts. International Journal of Nanoparticles 4(2–3):268–283
Yan X-G, Xu L, Huang W-Q, Huang G-F, Yang Z-M, Zhan S-Q, Long JP (2014) Theoretical insight into the electronic and photocatalytic properties of Cu2O from a hybrid density functional theory. Mater Sci Semicond Process 23:34–41
Yuan G (2004) Natural and modified nanomaterials as sorbents of environmental contaminants. J Environ Sci Health A 39(10):2661–2670
Zhang C, Jiang Y, Li Y, Hu Z, Zhou L, Zhou M (2013) Three-dimensional electrochemical process for wastewater treatment: a general review. Chem Eng J 228:455–467
Zhang X, Zhang Y, Quan X, Chen S (2009) Preparation of Ag doped BiVO4 film and its enhanced photoelectrocatalytic (PEC) ability of phenol degradation under visible light. J Hazard Mater 167(1–3):911–914
Zhao Z, Li Z, Zou Z (2011) Electronic structure and optical properties of monoclinic clinobisvanite BiVO 4. Phys Chem Chem Phys 13(10):4746–4753
Zhou JZ, Wu YY, Liu C, Orpe A, Liu Q, Xu ZP, Qian GR, Qiao SZ (2010) Effective self-purification of polynary metal electroplating wastewaters through formation of layered double hydroxides. Environ Sci Technol 44(23):8884–8890
Author information
Authors and Affiliations
Corresponding author
Additional information
Responsible editor: Suresh Pillai
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Rights and permissions
About this article
Cite this article
Tahir, M.B., Kiran, H. & Iqbal, T. The detoxification of heavy metals from aqueous environment using nano-photocatalysis approach: a review. Environ Sci Pollut Res 26, 10515–10528 (2019). https://doi.org/10.1007/s11356-019-04547-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11356-019-04547-x