Khodadadi, M., Ehrampoush, M.H., Ghaneian, M.T., Allahresani, A., Mahvi, A.H., Synthesis and characterizations of FeNi3@SiO2@TiO2 nanocomposite and its application in photo-catalytic degradation of tetracycline in simulated wastewater. J. Mol. Liq., 255, 224–232, 2018.
197. Jo, W.-K., Kumar, S., Isaacs, M.A., Lee, A.F., Karthikeyan, S., Cobalt promoted TiO2/GO for the photocatalytic degradation of oxytetracycline and Congo Red. Appl. Catal. B: Environ., 201, 159–168, 2017.
198. Lu, X., Che, W., Hu, X., Wang, Y., Zhang, A., Deng, F., Luo, S., Dionysiou, D.D., The facile fabrication of novel visible-light-driven Z-scheme CuInS2/Bi2WO6 heterojunction with intimate interface contact by in situ hydrothermal growth strategy for extraordinary photocatalytic performance. Chem. Eng. J., 356, 819–829, 2019.
199. Umbreen, N., Sohni, S., Ahmad, I., Khattak, N.U., Gul, K., Self-assembled three-dimensional reduced graphene oxide-based hydrogel for highly efficient and facile removal of pharmaceutical compounds from aqueous solution. J. Colloid Interf. Sci., 527, 356–367, 2018.
200. Zhao, C., Liao, Z., Liu, W., Liu, F., Ye, J., Liang, J., Li, Y., Carbon quantum dots modified tubular g-C3N4 with enhanced photocatalytic activity for carbamazepine elimination: mechanisms, degradation pathway and DFT calculation. J. Hazard. Mater., 381, 120957, 2020.
201. Thakur, A., Kumar, P., Kaur, D., Devunuri, N., Sinha, R.K., Devi, P., TiO2 nanofibres decorated with green-synthesized PAu/Ag@CQDs for the efficient photocatalytic degradation of organic dyes and pharmaceutical drugs. RSC Adv., 10, 8941, 2020.
202. Zhang, J., Yan, M., Yuan, X., Si, M., Jiang, L., Wu, Z., Wang, H., Zeng, G., Nitrogen doped carbon quantum dots mediated silver phosphate/bismuth vanadate Z-scheme photocatalyst for enhanced antibiotic degradation. J. Colloid Interface Sci., 529, 11–22, 2018.
203. Qu, Y., Xu, X., Huang, R., Qi, W., Su, R., He, Z., Enhanced photocatalytic degradation of antibiotics in water over functionalized N,S-doped carbon quantum dots embedded ZnO nanoflowers under sunlight Irradiation. Chem. Eng. J., 382, 123016, 2020.
204. Liu, T., Sun, S., Zhou, L., Li, P., Su, Z., Wei, G., Polyurethane-supported graphene oxide foam functionalized with carbon dots and TiO2 particles for photocatalytic degradation of dyes. Appl. Sci., 9, 293, 2019.
205. Bhati, A., Anand, S.R., Kumar, G., Garg, A., Khare, P., Sonkar, S., K., Sunlight-induced photocatalytic degradation of pollutant dye by highly fluorescent red-emitting Mg-N-embedded carbon dots. ACS Sustainable Chem. Eng., 6, 7, 9246–9256, 2018.
206. Karimi, F., Rajabi, H.R., Kavoshi, L., Rapid sonochemical water-based synthesis of functionalized zinc sulfide quantum dots: study of capping agent effect on photocatalytic activity, Ultrason. Sonochem., 57, 139–146, 2019.
207. Neelgund, G.M. and Oki, A., Photocatalytic activity of CdS and Ag2S quantum dots deposited on poly(amidoamine) functionalized carbon nanotubes. Appl. Catal B., 110, 99–107, 2011.
208. Pan, D., Jiao, J., Li, Z., Guo, Y., Feng, C., Liu, Y., Wang, L., Wu, M., Efficient separation of electron-hole pairs in graphene quantum dots by TiO2 heterojunctions for dye degradation. ACS Sustainable Chem. Eng., 3, 10, 2405–2413, 2015.
209. Rajabi, H.R., Karimi, F., Kazemdehdashti, H., Kavoshi, L., Fast sonochemically-assisted synthesis of pure and doped zinc sulfide quantum dots and their applicability in organic dye removal from aqueous media. J. Photochem. Photobiol, B., 181, 98–105, 2018.
210. Rajabi H, R., Khani, O., Shamsipur, M., Vatanpour, V., High-performance pure and Fe3+-ion doped ZnS quantum dots as green nanophotocatalysts for the removal of malachite green under UV-light irradiation. J. Hazard. Mater., 250-251, 370–378, 2013.
211. Kumar, A., Sharma, G., Naushad, Mu., Al-Muhtaseb, A.H., García-Peñas, A., Mola, G.T., Si, C., Stadle, F.J., Bio-inspired and biomaterials-based hybrid photocatalysts for environmental detoxification: a review. Chem. Eng. J., 382, 122937, 2020.
212. Zhang, Y., Yuan, K., Zhang, L., Micro/Nanomachines: from functionalization to sensing to removal. Adv. Mater. Technol., 4, 4, 1800636, 2019.
213. Ouyang, K., Dai, K., Chen, H., Huang, Q., Gao, C., Cai, P., Metal-free inactivation of E. coli O157:H7 by fullerene/C3N4 hybrid under visible light irradiation. Ecotoxicol. Environ. Saf., 136, 40–45, 2017.
214. Li, R., Ren, Y., Zhao, P., Wang, J., Liu, J., Zhang, Y., Graphitic carbon nitride (g-C3N4) nanosheets functionalized composite membrane with self-cleaning and antibacterial performance. J. Hazard. Mater., 365, 606–614, 2019.
215. Qi, K., Cheng, B., Yu, J., Ho, W., Review on the improvement of the photo-catalytic and antibacterial activities of ZnO. J. Alloys Compd., 727, 792–820, 2017.
216. Wang, W., Zhang, L., An, T., Li, G., Yip, H.Y., Wong, P.K., Comparative study of visible-light-driven photocatalytic mechanisms of dye decolorization and bacterial disinfection by B-Ni-codoped TiO2 microspheres: the role of different reactive species. Appl. Catal. B: Environ., 108, 108–116, 2011.
217. Hou, X., Ma, H., Liu, F., Deng, J., Ai, Y., Zhao, X., Mao, D., Li, D., Liao, B., Synthesis of Ag ion-implanted TiO2 thin films for antibacterial application and photocatalytic performance. J. Hazard. Mater., 299, 59–66, 2015.
218. Vignesh, S., Muppudathi, A.L., Sundar, J.K., Multifunctional performance of gC3N4-BiFeO3-Cu2O hybrid nanocomposites for magnetic separable photo-catalytic and antibacterial activity. J. Mater. Sci.: Mater. Electron., 29, 10784–10801, 2018.
219. Song, M.Y., Jurng, J., Park, Y.-K., Kim, B.C., An aptamer cocktail-functionalized photocatalyst with enhanced antibacterial efficiency towards target bacteria. J. Hazard. Mater., 318, 247–254, 2016.
220. Water, sanitation, hygiene and health: A primer for health professionals. World Health Organisation, WHO/CED/PHE/WSH/19.149,36, 2019.
221. Khin, M.M., Nair, A.S., Babu, V.J., Murugan, R., Ramakrishna, S., A review on nanomaterials for environmental remediation. Energy Environ. Sci., 5, 8075, 2012.
222. Patra, S., Roy, E., Madhuri, R., Sharma, P.K. et al., A technique comes to life for security of life: the food contaminant sensors, in: Nanobiosensors, A. Grumezescu (Ed.), pp. 713–772, Elsevier, Academic Press, USA, 2017.
223. Lu, F. and Astruc, D., Nanocatalysts and other nanomaterials for water remediation from organic pollutants. Coord. Chem. Rev., 408, 213180, 2020.
224. Roy, E., Patra, S., Karfa, P., Madhuri, R., Sharma, P.K. et al., Role of magnetic nanoparticles in providing safe and clean water to each individual, in: Complex Magnetic Nanostructures: Synthesis, Assembly and Applications, S.K. Sharma (Ed.), pp. 281–316, Springer International Publishing AG, Springer, Cham, 2017.
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