How to cite this paper
Kumari, S., Singh, V & Singh, D. (2024). Nanoparticle synthesis advancements and their application in wastewater treatment: A comprehensive review.Current Chemistry Letters, 13(1), 31-40.
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1. Adejumoke A.I., Babatunde O.A., Abimbola P.O., Tabitha A.A.A., Adewumi O.D. and Toyin A.O. (2018) Water Pollution: Effects, Prevention, and Climatic Impact, in: Matjaz Glavan (Ed). Wat. Chall. Urb. World., IntechOpen, London, 33-53.
2. 2 Z. W. S. Kundzewicz, B. C. Bates, Z. W. Kundzewicz, S. Wu and J. P. Palutikof, (1990) Climate Change and Water. Eos, Transactions American Geophysical Union, 71, 339–347.
3. J. Hughes, K. Cowper-Heays, E. Olesson, R. Bell and A. Stroombergen. (2021) Impacts and implications of climate change on wastewater systems: A New Zealand perspective, Clim. Risk Manag., 2021, 31, 100262.
4. Oghyanous, F.A. (2021) Nanoparticles in Wastewater Treatment, in: M. Eyvaz, A. Albahnasawi, E. Gurbulak and E.Yuksel,(Eds), Water Conservation - Inevitable Strategy., IntechOpen, London, 3, 1-13
5. R. C. Olvera, S. L. Silva, E. Robles-Belmont and E. Z. Lau. (2017) Review of nanotechnology value chain for water treatment applications in Mexico. Resource-Efficient Technologies., 3, 1–11.
6. L. Xiao, J. Liu and J. Ge. (2021) Dynamic game in agriculture and industry cross-sectoral water pollution governance in developing countries. Agric. Water Manag., 243, 106417.
7. A. Chowdhury, A. Naz and A. Chowdhury. (2022) Waste to resource: Applicability of fly ash as landfill geoliner to control ground water pollution. Mater. Today: Proc.., 60, 8–13.
8. S. Bhadauria, R. S. Rajput and S. Pandey. (2017) Status of water pollution in relation to industrialization in Rajasthan. Rev. Environ. Health., 32, 245–252.
9. G. Palani, A. Arputhalatha, K. Kannan, S. K. Lakkaboyana, M. M. Hanafiah, V. Kumar and R. K. Marella. (2021) Current trends in the application of nanomaterials for the removal of pollutants from industrial wastewater treatment—a review. Mol., 26, 2799.
10. B. Lellis, C. Z. Fávaro-Polonio, J. A. Pamphile and J. C. Polonio. (2019) Effects of textile dyes on health and the environment and bioremediation potential of living organisms. Biotechnol. Res. Innov., 3, 275–290.
11. A. Fahad, M. Radin, M. Saphira, B. Radhi and M. Al-Sahari. (2019) Wastewater and its Treatment Techniques: An Ample Review. Indian J Sci Technol., 12, 1–13.
12. A. Baruah, V. Chaudhary, R. Malik and V. K. Tomer. (2019) Nanotechnology Based Solutions for Wastewater Treatment, in: A. Ahsan and A.F Ismail, (Eds). Nanotechnology in Water and Wastewater Treatment: Theory and Applications., Elsevier, Amsterdam, 1, 17, 337–368.
13. G. Crini and E. Lichtfouse, (2019) Advantages and disadvantages of techniques used for wastewater treatment. Env. Chem. Lett., 17, 145–155.
14. C. Gomez-Solís, J. C. Ballesteros, L. M. Torres-Martínez, I. Juárez-Ramírez, L. A. Díaz Torres, M. E. Zarazua-Morin and S. W. Lee. (2015) Rapid synthesis of ZnO nano-corncobs from Nital solution and its application in the photodegradation of methyl orange. J. Photochem. Photobiol. A., 298, 49–54.
15. K. Umar, A. A. Dar, M. M. Haque, N. A. Mir and M. Muneer. (2012) Photocatalysed decolourization of two textile dye derivatives, Martius Yellow and Acid Blue 129, in UV-irradiated aqueous suspensions of Titania. Desalin. Water Treat., 46, 205–214.
16. I. Khan, K. Saeed and I. Khan.(2019) Nanoparticles: Properties, applications and toxicities. Arab. J. Chem., 12, 908–931.
17. X. Qu, J. Brame, Q. Li and P. J. J. Alvarez. (2013) Nanotechnology for a safe and sustainable water supply: Enabling integrated water treatment and reuse. Acc. Chem. Res., 46, 834–843.
18. B. A. Kairdolf, X. Qian and S. Nie. (2017) Bioconjugated nanoparticles for biosensing, in vivo imaging, and medical diagnostics. Anal. Chem., 89, 1015–1031.
19. N. A. Ahmad, P. S. Goh, A. K. Zulhairun, T. W. Wong and A. F. Ismail. (2021) The Role of Functional Nanomaterials for Wastewater Remediation, in: A. F. Ismail and P. S. Goh. (Eds) Functional Hybrid Nanomaterials for Environmental Remediation, The Royal Society of Chemistry, Cambridge, 1, 1–28.
20. M. S. Usman, M. E. el Zowalaty, K. Shameli, N. Zainuddin, M. Salama and N. A. Ibrahim. (2013) Synthesis, characterization, and antimicrobial properties of copper nanoparticles. Int. J. Nanomedicine., 8, 4467.
21. Z. Yin, C. Cui, H. Chen, Duoni, X. Yu and W. Qian. (2021) The Application of Carbon Nanotube/Graphene-Based Nanomaterials in Wastewater Treatment. Small., 16, 1902301.
22. U. A. Rani, L. Y. Ng, C. Y. Ng and E. Mahmoudi. (2020) A review of carbon quantum dots and their applications in wastewater treatment. Adv. Colloid Interface Sci., 278, 102124.
23. S. Shahabuddin, R. Gaur, N. Mukherjee, P. Chandra and R. Khanam. (2022) Conducting polymers-based nanocomposites: Innovative materials for waste water treatment and energy storage. Mater. Today: Proc.., 62, 6950–6955.
24. D. D. Merin, S. Prakash and B. V. Bhimba. (2010) Antibacterial screening of silver nanoparticles synthesized by marine micro algae. Asian Pac. J. Trop. Med., 3, 797–799.
25. M. A. Elkodous, H. A. Hamad, M. I. A. A. Maksoud, G. A. M. Ali, M. el Abboubi, A. G. Bedir, A. A. Eldeeb, A. A. Ayed, Z. Gargar, F. S. Zaki, D. A. M. Farage, A. Matsuda, M. R. Abdelnour, B. A. Sabra, A. Elsayed, T. A. Abdelrazek, S. T. Abdelhameed, M. A. Gharieb, M. M. Rabee, S. A. Aboeldiar, N. A. Abdo, A. M. Elwakeel, A. S. Mahmoud, M. M. M. Elsaid, W. M. Omar, R. A. Hania, N. G. Mahmoud, A. S. S. Elsayed, T. M. Mohamed, M. A. Sewidan, M. A. M. Sayed, A. A. Abbas, A. H. Elsayed, A. M. Alazab, M. A. Basyooni, M. Magdy, E. A. Mashaly, O. M. Salem, S. Saber, A. A. Hafez, W. K. Tan and G. Kawamura. (2022) Cutting-edge development in waste-recycled nanomaterials for energy storage and conversion applications. Nanotechnol. Rev., 11, 2215–2294.
26. M. I. Dar, S. Sampath and S. A. Shivashankar. (2012) Microwave-assisted, surfactant-free synthesis of air-stable copper nanostructures and their SERS study. J. Mater. Chem., 22, 22418–22423.
27. T. Stalin Dhas, V. Ganesh Kumar, V. Karthick, K. Jini Angel and K. Govindaraju. (2014) Facile synthesis of silver chloride nanoparticles using marine alga and its antibacterial efficacy. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy., 120, 416–420.
28. R. A. Ismail, G. M. Sulaiman, S. A. Abdulrahman and T. R. Marzoog. (2015) Antibacterial activity of magnetic iron oxide nanoparticles synthesized by laser ablation in liquid. Mater. Sci. Eng. C ., 53, 286–297.
29. T. K. Pathak, R. E. Kroon and H. C. Swart. (2018) Photocatalytic and biological applications of Ag and Au doped ZnO nanomaterial synthesized by combustion. Vacuum., 157, 508–513.
30. S.V. Kumar, A. P. Bafana, P. Pawar, M. Faltane, A. Rahman, S. A. Dahoumane, A. Kucknoor and C. S. Jeffryes. (2019) Optimized production of antibacterial copper oxide nanoparticles in a microwave-assisted synthesis reaction using response surface methodology. Colloids Surf. A: Physicochem. Eng., 573, 170–178.
31. C. Das, S. Sen, T. Singh, T. Ghosh, S. S. Paul, T. W. Kim, S. Jeon, D. K. Maiti, J. Im and G. Biswas. (2020) Green Synthesis, Characterization and Application of Natural Product Coated Magnetite Nanoparticles for Wastewater Treatment. Nanomater., 10, 1615.
32. V. T. Nguyen. (2022) Sunlight-Driven Synthesis of Silver Nanoparticles Using Pomelo Peel Extract and Antibacterial Testing. J. Chem., 6407081,
33. N. van Hung, B. Thi Minh Nguyet, N. Huu Nghi, V. Thang Nguyen, T. Vu Binh, N. Thi Thanh Tu, N. Nho Dung, D. Quang Khieu, D. Thang, H. Khanh Nam, L. Chieu, D. Nang, V. Nam, S. Thanh Khe, T. Khe Tay and T. Khe. (2021) Visible light photocatalytic degradation of organic dyes using W-modified TiO2/SiO2 catalyst. Vietnam J. Chem., 59, 620–638.
34. T. Gong, L. Qin, W. Zhang, H. Wan, J. Lu and H. Feng. (2015) Activated carbon supported palladium nanoparticle catalysts synthesized by atomic layer deposition: Genesis and evolution of nanoparticles and tuning the particle size. J. Phys. Chem. C., 119, 11544–11556.
35. P. Roonasi and M. Mazinani. (2017) Synthesis and application of barium ferrite/activated carbon composite as an effective solar photocatalyst for discoloration of organic dye contaminants in wastewater. J. Environ. Chem. Eng., 5, 3822–3827.
36. T. Pal, S. Mohiyuddin and G. Packirisamy. (2018) Facile and Green Synthesis of Multicolor Fluorescence Carbon Dots from Curcumin: In Vitro and in Vivo Bioimaging and Other Applications. ACS Omega., 3, 831–843.
37. S. Nadeem, M. Javed, S. Iqbal, A. Mohyuddin, Q. Mahmood, Q. Abbas, N. Alfryyan, M. D. Alqahtani, M. T. Alotaibi, H. O. Alsaab, N. S. Awwad, H. A. Ibrahium, E. B. Elkaeed, M. N. Ahmad, S. M. Haroon and H. Raza. (2022) Facile Synthesis of Catalyst Free Carbon Nanoparticles From the Soot of Natural Oils. Front. Mater. Sci., 9, 293.
38. P. Wang, L. Li, X. Pang, Y. Zhang, Y. Zhang, W. F. Dong and R. Yan. (2021) Chitosan-based carbon nanoparticles as a heavy metal indicator and for wastewater treatment. RSC Advances., 11, 12015–12021.
39. A. Kumaresan, A. Arun, V. Kalpana, P. Vinupritha and E. Sundaravadivel. (2022) Polymer-supported NiWO4 nanocomposites for visible light degradation of toxic dyes. J. Mater. Sci.: Mater. Electron., 33, 9660–9668.
40. N. C. Joshi and N. Kumar. (2022) Synthesis, characterisation and adsorption applications of PMMA/ZnO-based nanocomposite material. Nanotechnol. Environ. Eng., 7, 425–436.
41. A. R. Singh, P. S. Dhumal, M. A. Bhakare, K. D. Lokhande, M. P. Bondarde and S. Some. (2022) In-situ synthesis of metal oxide and polymer decorated activated carbon-based photocatalyst for organic pollutants degradation. Sep. Purif. Technol., 286, 120380.
42. F. Mohamed, M. Shaban, G. Aljohani and A. M. Ahmed. (2021) Synthesis of novel eco-friendly CaO/C photocatalyst from coffee and eggshell wastes for dye degradation. J. Mater. Res. Technol.,14, 3140–3149.
43. Q. Chen, H. Wang, X. Tang, Z. Ba, X. Zhao, Y. Wang and H. Deng. (2021) One-step synthesis of carbon quantum dot-carbon nanotube composites on waste eggshell-derived catalysts for enhanced adsorption of methylene blue. J. Environ. Chem. Eng., 9, 106222.
44. M. El-Kammah, E. Elkhatib, S. Gouveia, C. Cameselle and E. Aboukila. (2022) Cost-effective ecofriendly nanoparticles for rapid and efficient indigo carmine dye removal from wastewater: Adsorption equilibrium, kinetics and mechanism. Environ. Technol. Innov., 28, 102595.
45. U. A. Rani, L. Y. Ng, Y. S. Ng, C. Y. Ng, Y. H. Ong and Y. P. Lim. (2022) Photocatalytic degradation of methyl green dye by nitrogen-doped carbon quantum dots: Optimisation study by Taguchi approach. MSEB., 283, 115820.
46. Z. Tauanov and V. J. Inglezakis. (2019) Removal of iodide from water using silver nanoparticles-impregnated synthetic zeolites. Sci. Total Environ., 682, 259–270.
47. E. A. Abdelrahman, Y. G. Abou El-Reash, H. M. Youssef, Y. H. Kotp and R. M. Hegazey. (2021) Utilization of rice husk and waste aluminum cans for the synthesis of some nanosized zeolite, zeolite/zeolite, and geopolymer/zeolite products for the efficient removal of Co(II), Cu(II), and Zn(II) ions from aqueous media. J. Hazard. Mater., 401, 123813.
48. R. Gayatri, T. E. Agustina, D. Bahrin, R. Moeksin and G. Gustini. (2021) Preparation and Characterization of ZnO-Zeolite Nanocomposite for Photocatalytic Degradation by Ultraviolet Light. J. Ecol. Eng., 22, 178–186.
49. A. Hamd, M. Shaban, H. Almohamadi, A. R. Dryaz, S. A. Ahmed, K. A. Abu Al-Ola, H. R. Abd El-Mageed and N. K. Soliman. (2022) Novel Wastewater Treatment by Using Newly Prepared Green Seaweed–Zeolite Nanocomposite. ACS Omega., 7, 11044–11056.
2. 2 Z. W. S. Kundzewicz, B. C. Bates, Z. W. Kundzewicz, S. Wu and J. P. Palutikof, (1990) Climate Change and Water. Eos, Transactions American Geophysical Union, 71, 339–347.
3. J. Hughes, K. Cowper-Heays, E. Olesson, R. Bell and A. Stroombergen. (2021) Impacts and implications of climate change on wastewater systems: A New Zealand perspective, Clim. Risk Manag., 2021, 31, 100262.
4. Oghyanous, F.A. (2021) Nanoparticles in Wastewater Treatment, in: M. Eyvaz, A. Albahnasawi, E. Gurbulak and E.Yuksel,(Eds), Water Conservation - Inevitable Strategy., IntechOpen, London, 3, 1-13
5. R. C. Olvera, S. L. Silva, E. Robles-Belmont and E. Z. Lau. (2017) Review of nanotechnology value chain for water treatment applications in Mexico. Resource-Efficient Technologies., 3, 1–11.
6. L. Xiao, J. Liu and J. Ge. (2021) Dynamic game in agriculture and industry cross-sectoral water pollution governance in developing countries. Agric. Water Manag., 243, 106417.
7. A. Chowdhury, A. Naz and A. Chowdhury. (2022) Waste to resource: Applicability of fly ash as landfill geoliner to control ground water pollution. Mater. Today: Proc.., 60, 8–13.
8. S. Bhadauria, R. S. Rajput and S. Pandey. (2017) Status of water pollution in relation to industrialization in Rajasthan. Rev. Environ. Health., 32, 245–252.
9. G. Palani, A. Arputhalatha, K. Kannan, S. K. Lakkaboyana, M. M. Hanafiah, V. Kumar and R. K. Marella. (2021) Current trends in the application of nanomaterials for the removal of pollutants from industrial wastewater treatment—a review. Mol., 26, 2799.
10. B. Lellis, C. Z. Fávaro-Polonio, J. A. Pamphile and J. C. Polonio. (2019) Effects of textile dyes on health and the environment and bioremediation potential of living organisms. Biotechnol. Res. Innov., 3, 275–290.
11. A. Fahad, M. Radin, M. Saphira, B. Radhi and M. Al-Sahari. (2019) Wastewater and its Treatment Techniques: An Ample Review. Indian J Sci Technol., 12, 1–13.
12. A. Baruah, V. Chaudhary, R. Malik and V. K. Tomer. (2019) Nanotechnology Based Solutions for Wastewater Treatment, in: A. Ahsan and A.F Ismail, (Eds). Nanotechnology in Water and Wastewater Treatment: Theory and Applications., Elsevier, Amsterdam, 1, 17, 337–368.
13. G. Crini and E. Lichtfouse, (2019) Advantages and disadvantages of techniques used for wastewater treatment. Env. Chem. Lett., 17, 145–155.
14. C. Gomez-Solís, J. C. Ballesteros, L. M. Torres-Martínez, I. Juárez-Ramírez, L. A. Díaz Torres, M. E. Zarazua-Morin and S. W. Lee. (2015) Rapid synthesis of ZnO nano-corncobs from Nital solution and its application in the photodegradation of methyl orange. J. Photochem. Photobiol. A., 298, 49–54.
15. K. Umar, A. A. Dar, M. M. Haque, N. A. Mir and M. Muneer. (2012) Photocatalysed decolourization of two textile dye derivatives, Martius Yellow and Acid Blue 129, in UV-irradiated aqueous suspensions of Titania. Desalin. Water Treat., 46, 205–214.
16. I. Khan, K. Saeed and I. Khan.(2019) Nanoparticles: Properties, applications and toxicities. Arab. J. Chem., 12, 908–931.
17. X. Qu, J. Brame, Q. Li and P. J. J. Alvarez. (2013) Nanotechnology for a safe and sustainable water supply: Enabling integrated water treatment and reuse. Acc. Chem. Res., 46, 834–843.
18. B. A. Kairdolf, X. Qian and S. Nie. (2017) Bioconjugated nanoparticles for biosensing, in vivo imaging, and medical diagnostics. Anal. Chem., 89, 1015–1031.
19. N. A. Ahmad, P. S. Goh, A. K. Zulhairun, T. W. Wong and A. F. Ismail. (2021) The Role of Functional Nanomaterials for Wastewater Remediation, in: A. F. Ismail and P. S. Goh. (Eds) Functional Hybrid Nanomaterials for Environmental Remediation, The Royal Society of Chemistry, Cambridge, 1, 1–28.
20. M. S. Usman, M. E. el Zowalaty, K. Shameli, N. Zainuddin, M. Salama and N. A. Ibrahim. (2013) Synthesis, characterization, and antimicrobial properties of copper nanoparticles. Int. J. Nanomedicine., 8, 4467.
21. Z. Yin, C. Cui, H. Chen, Duoni, X. Yu and W. Qian. (2021) The Application of Carbon Nanotube/Graphene-Based Nanomaterials in Wastewater Treatment. Small., 16, 1902301.
22. U. A. Rani, L. Y. Ng, C. Y. Ng and E. Mahmoudi. (2020) A review of carbon quantum dots and their applications in wastewater treatment. Adv. Colloid Interface Sci., 278, 102124.
23. S. Shahabuddin, R. Gaur, N. Mukherjee, P. Chandra and R. Khanam. (2022) Conducting polymers-based nanocomposites: Innovative materials for waste water treatment and energy storage. Mater. Today: Proc.., 62, 6950–6955.
24. D. D. Merin, S. Prakash and B. V. Bhimba. (2010) Antibacterial screening of silver nanoparticles synthesized by marine micro algae. Asian Pac. J. Trop. Med., 3, 797–799.
25. M. A. Elkodous, H. A. Hamad, M. I. A. A. Maksoud, G. A. M. Ali, M. el Abboubi, A. G. Bedir, A. A. Eldeeb, A. A. Ayed, Z. Gargar, F. S. Zaki, D. A. M. Farage, A. Matsuda, M. R. Abdelnour, B. A. Sabra, A. Elsayed, T. A. Abdelrazek, S. T. Abdelhameed, M. A. Gharieb, M. M. Rabee, S. A. Aboeldiar, N. A. Abdo, A. M. Elwakeel, A. S. Mahmoud, M. M. M. Elsaid, W. M. Omar, R. A. Hania, N. G. Mahmoud, A. S. S. Elsayed, T. M. Mohamed, M. A. Sewidan, M. A. M. Sayed, A. A. Abbas, A. H. Elsayed, A. M. Alazab, M. A. Basyooni, M. Magdy, E. A. Mashaly, O. M. Salem, S. Saber, A. A. Hafez, W. K. Tan and G. Kawamura. (2022) Cutting-edge development in waste-recycled nanomaterials for energy storage and conversion applications. Nanotechnol. Rev., 11, 2215–2294.
26. M. I. Dar, S. Sampath and S. A. Shivashankar. (2012) Microwave-assisted, surfactant-free synthesis of air-stable copper nanostructures and their SERS study. J. Mater. Chem., 22, 22418–22423.
27. T. Stalin Dhas, V. Ganesh Kumar, V. Karthick, K. Jini Angel and K. Govindaraju. (2014) Facile synthesis of silver chloride nanoparticles using marine alga and its antibacterial efficacy. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy., 120, 416–420.
28. R. A. Ismail, G. M. Sulaiman, S. A. Abdulrahman and T. R. Marzoog. (2015) Antibacterial activity of magnetic iron oxide nanoparticles synthesized by laser ablation in liquid. Mater. Sci. Eng. C ., 53, 286–297.
29. T. K. Pathak, R. E. Kroon and H. C. Swart. (2018) Photocatalytic and biological applications of Ag and Au doped ZnO nanomaterial synthesized by combustion. Vacuum., 157, 508–513.
30. S.V. Kumar, A. P. Bafana, P. Pawar, M. Faltane, A. Rahman, S. A. Dahoumane, A. Kucknoor and C. S. Jeffryes. (2019) Optimized production of antibacterial copper oxide nanoparticles in a microwave-assisted synthesis reaction using response surface methodology. Colloids Surf. A: Physicochem. Eng., 573, 170–178.
31. C. Das, S. Sen, T. Singh, T. Ghosh, S. S. Paul, T. W. Kim, S. Jeon, D. K. Maiti, J. Im and G. Biswas. (2020) Green Synthesis, Characterization and Application of Natural Product Coated Magnetite Nanoparticles for Wastewater Treatment. Nanomater., 10, 1615.
32. V. T. Nguyen. (2022) Sunlight-Driven Synthesis of Silver Nanoparticles Using Pomelo Peel Extract and Antibacterial Testing. J. Chem., 6407081,
33. N. van Hung, B. Thi Minh Nguyet, N. Huu Nghi, V. Thang Nguyen, T. Vu Binh, N. Thi Thanh Tu, N. Nho Dung, D. Quang Khieu, D. Thang, H. Khanh Nam, L. Chieu, D. Nang, V. Nam, S. Thanh Khe, T. Khe Tay and T. Khe. (2021) Visible light photocatalytic degradation of organic dyes using W-modified TiO2/SiO2 catalyst. Vietnam J. Chem., 59, 620–638.
34. T. Gong, L. Qin, W. Zhang, H. Wan, J. Lu and H. Feng. (2015) Activated carbon supported palladium nanoparticle catalysts synthesized by atomic layer deposition: Genesis and evolution of nanoparticles and tuning the particle size. J. Phys. Chem. C., 119, 11544–11556.
35. P. Roonasi and M. Mazinani. (2017) Synthesis and application of barium ferrite/activated carbon composite as an effective solar photocatalyst for discoloration of organic dye contaminants in wastewater. J. Environ. Chem. Eng., 5, 3822–3827.
36. T. Pal, S. Mohiyuddin and G. Packirisamy. (2018) Facile and Green Synthesis of Multicolor Fluorescence Carbon Dots from Curcumin: In Vitro and in Vivo Bioimaging and Other Applications. ACS Omega., 3, 831–843.
37. S. Nadeem, M. Javed, S. Iqbal, A. Mohyuddin, Q. Mahmood, Q. Abbas, N. Alfryyan, M. D. Alqahtani, M. T. Alotaibi, H. O. Alsaab, N. S. Awwad, H. A. Ibrahium, E. B. Elkaeed, M. N. Ahmad, S. M. Haroon and H. Raza. (2022) Facile Synthesis of Catalyst Free Carbon Nanoparticles From the Soot of Natural Oils. Front. Mater. Sci., 9, 293.
38. P. Wang, L. Li, X. Pang, Y. Zhang, Y. Zhang, W. F. Dong and R. Yan. (2021) Chitosan-based carbon nanoparticles as a heavy metal indicator and for wastewater treatment. RSC Advances., 11, 12015–12021.
39. A. Kumaresan, A. Arun, V. Kalpana, P. Vinupritha and E. Sundaravadivel. (2022) Polymer-supported NiWO4 nanocomposites for visible light degradation of toxic dyes. J. Mater. Sci.: Mater. Electron., 33, 9660–9668.
40. N. C. Joshi and N. Kumar. (2022) Synthesis, characterisation and adsorption applications of PMMA/ZnO-based nanocomposite material. Nanotechnol. Environ. Eng., 7, 425–436.
41. A. R. Singh, P. S. Dhumal, M. A. Bhakare, K. D. Lokhande, M. P. Bondarde and S. Some. (2022) In-situ synthesis of metal oxide and polymer decorated activated carbon-based photocatalyst for organic pollutants degradation. Sep. Purif. Technol., 286, 120380.
42. F. Mohamed, M. Shaban, G. Aljohani and A. M. Ahmed. (2021) Synthesis of novel eco-friendly CaO/C photocatalyst from coffee and eggshell wastes for dye degradation. J. Mater. Res. Technol.,14, 3140–3149.
43. Q. Chen, H. Wang, X. Tang, Z. Ba, X. Zhao, Y. Wang and H. Deng. (2021) One-step synthesis of carbon quantum dot-carbon nanotube composites on waste eggshell-derived catalysts for enhanced adsorption of methylene blue. J. Environ. Chem. Eng., 9, 106222.
44. M. El-Kammah, E. Elkhatib, S. Gouveia, C. Cameselle and E. Aboukila. (2022) Cost-effective ecofriendly nanoparticles for rapid and efficient indigo carmine dye removal from wastewater: Adsorption equilibrium, kinetics and mechanism. Environ. Technol. Innov., 28, 102595.
45. U. A. Rani, L. Y. Ng, Y. S. Ng, C. Y. Ng, Y. H. Ong and Y. P. Lim. (2022) Photocatalytic degradation of methyl green dye by nitrogen-doped carbon quantum dots: Optimisation study by Taguchi approach. MSEB., 283, 115820.
46. Z. Tauanov and V. J. Inglezakis. (2019) Removal of iodide from water using silver nanoparticles-impregnated synthetic zeolites. Sci. Total Environ., 682, 259–270.
47. E. A. Abdelrahman, Y. G. Abou El-Reash, H. M. Youssef, Y. H. Kotp and R. M. Hegazey. (2021) Utilization of rice husk and waste aluminum cans for the synthesis of some nanosized zeolite, zeolite/zeolite, and geopolymer/zeolite products for the efficient removal of Co(II), Cu(II), and Zn(II) ions from aqueous media. J. Hazard. Mater., 401, 123813.
48. R. Gayatri, T. E. Agustina, D. Bahrin, R. Moeksin and G. Gustini. (2021) Preparation and Characterization of ZnO-Zeolite Nanocomposite for Photocatalytic Degradation by Ultraviolet Light. J. Ecol. Eng., 22, 178–186.
49. A. Hamd, M. Shaban, H. Almohamadi, A. R. Dryaz, S. A. Ahmed, K. A. Abu Al-Ola, H. R. Abd El-Mageed and N. K. Soliman. (2022) Novel Wastewater Treatment by Using Newly Prepared Green Seaweed–Zeolite Nanocomposite. ACS Omega., 7, 11044–11056.