- Abed, S. M., Reda, S. E. M., and Muhsin, N. M. B. (2022). Review on Nanotechnology Applications in Removing Chemical Pollutants and Their Application in Health. Trends in Pharmaceuticals and Nanotechnology, 4(1) 31-38.
- Aghababai, A., and Jabbari, H. (2022). Nanomaterials for Environmental Applications. Results in Engineering, 15(April), 100467.
- Ajdary, M., Moosavi, M. A., Rahmati, M., Falahati, M., Mahboubi, M., Mandegary, A., ... and Varma, R. S. (2018). Health concerns of various nanoparticles: A review of their in vitro and in vivo toxicity. Nanomaterials, 8(9): 634.
- Aqel, A., Abou El-Nour, K. M., Ammar, R. A., and Al-Warthan, A. (2012). Carbon nanotubes, science and technology part (I) structure, synthesis and characterisation. Arabian Journal of Chemistry, 5(1): 1-23.
- Baig, N., Kammakakam, I., and Falath, W. (2021). Nanomaterials: A review of synthesis methods, properties, recent progress, and challenges. Materials Advances, 2(6): 1821-1871.
- Balzani, V. (2008). Nanoscience and nanotechnology: The bottom-up construction of molecular devices and machines. Pure and Applied chemistry, 80(8): 1631-1650.
- Bandala, E. R., and Berli, M. (2019). Engineered nanomaterials (ENMs) and their role at the nexus of Food, Energy, and Water. Materials Science for Energy Technologies, 2(1): 29-40.
- Barmpoutis, P., Papaioannou, P., Dimitropoulos, K., and Grammalidis, N. (2020). A review on early forest fire detection systems using optical remote sensing. Sensors, 20(22): 6442.
- Bayda, S., Adeel, M., Tuccinardi, T., Cordani, M., and Rizzolio, F. (2019). The history of nanoscience and nanotechnology: from chemical–physical applications to nanomedicine. Molecules, 25(1): 112.
- Boholm, Å. (2014). Nanotechnology, anthropomorphic matter and human machinery: an exploration of the longue durée of technological vision. J Assoc Soc Anthropol, 1(9).
- Bokov, D., Turki Jalil, A., Chupradit, S., Suksatan, W., Javed Ansari, M., Shewael, I. H., ... and Kianfar, E. (2021). Nanomaterial by sol-gel method: synthesis and application. Advances in Materials Science and Engineering, 1-21.
- Cele, T. (2020). Preparation of Nanoparticles. Engineered Nanomaterials- Health and Safety, 1-14.
- (2018). Nanotechnology and Materials R&D in Japan: An Overview and Analysis.
- Dach, H. (2008). Comparison of nanofiltration and reverse osmosis processes for a selective desalination of brackish water feeds (Doctoral dissertation, Université d'Angers).
- Feynman, R. P. (1960). There’s Plenty of Room at the Bottom. Engineering and Science, 22-36.
- Filipponi, L., and Sutherland, D. (2013). Nanotechnologies: principles, applications, implications and hands-on activities. Publications Office of the European Union, Luxembourg.
- Gehrke, I., Geiser, A., and Somborn-Schulz, A. (2015). Innovations in nanotechnology for water treatment. Nanotechnology, science and applications, 20(5): 1-17.
- Gnach, A., Lipinski, T., Bednarkiewicz, A., Rybka, J., and Capobianco, J. A. (2015). Upconverting nanoparticles: assessing the toxicity. Chemical Society Reviews, 44(6): 1561-1584.
- Goodilin, E. A., Weiss, P. S., and Gogotsi, Y. (2019). Nanotechnology facets of the periodic table of elements. ACS Nano, 13(10): 12206–12218.
- Hairom, N. H. H., Soon, C. F., Mohamed, R. M. S. R., Morsin, M., Zainal, N., Nayan, N., ... and Harun, N. H. (2021). A review of nanotechnological applications to detect and control surface water pollution. Environmental Technology and Innovation, 24: 102032.
- Hulla, J. E., Sahu, S. C., and Hayes, A. W. (2015). Nanotechnology: History and future. Human and experimental toxicology, 34(12): 1318-1321.
- Iavicoli, I., Leso, V., Ricciardi, W., Hodson, L. L., and Hoover, M. D. (2014). Opportunities and challenges of nanotechnology in the green economy. Environmental Health, 13(78): 1-11.
- Ibrahim, R. K., Hayyan, M., AlSaadi, M. A., Hayyan, A., and Ibrahim, S. (2016). Environmental application of nanotechnology: air, soil, and water. Environmental Science and Pollution Research, 23: 13754-13788.
- Isaacoff, B. P., and Brown, K. A. (2017). Progress in top-down control of bottom-up assembly. Nano Letters, 17(11): 6508-6510.
- Jeevanandam, J., Barhoum, A., Chan, Y. S., Dufresne, A., and Danquah, M. K. (2018). Review on nanoparticles and nanostructured materials: history, sources, toxicity and regulations. Beilstein journal of nanotechnology, 9(1): 1050-1074.
- Joseph, T., and Morrison, M. (2006). Nanotechnology in Agriculture and Food.
- Karn, B., Masciangioli, T., Zhang, W. X., and Masciangioli, T. M. (2004). Nanotechnology and the Environment. American Chemical Society.
- Khuspe, P., Kokate, K., Mandhare, T., Nangre, P., and Rathi, B. (2017). A comprehensive review on novel pharmaceutical nanotechnology and its applications. Indo American Journal of Pharmaceutical Sciences, 4(12): 4640-4647.
- Laherto, A. (2010). An analysis of the educational significance of nanoscience and nanotechnology in scientific and technological literacy. Science Education International, 21(3): 160-175.
- Lakhani, P. K., and Jain, N. (2018). Nanotechnology and green nanotechnology: a road map for sustainable development, cleaner energy and greener world. International Journal of Innovative Science and Research Technology, 3(1): 580-588.
- Lee, M. H., Saurey, S. D., Lee, B. D., Parker, K. E., Eisenhauer, E. R., Cordova, E. A., and Golovich, E. C. (2014). Characterization of Biofilm in 200W Fluidized Bed Reactors. Affiliation: Pacific Northwest National Laboratory.
- Manisalidis, I., Stavropoulou, E., Stavropoulos, A., and Bezirtzoglou, E. (2020). Environmental and health impacts of air pollution: a review. Frontiers in public health, 14.
- Maynard, A. D. (2007). Nanotechnology: the next big thing, or much ado about nothing?. The Annals of occupational hygiene, 51(1): 1-12.
- Metaxas, I., Michailidi, E., Stavrou, D., and Pavlidis, I. V. (2021). Educational reconstruction of size-depended-properties in nanotechnology for teaching in tertiary education. Chemistry Teacher International, 3(4): 413-422.
- Mijatovic, D., Eijkel, J. C., and Van den Berg, A. (2005). Technologies for nanofluidic systems: top-down vs. bottom-up—a review. Lab on a Chip, 5(5): 492-500.
- Mohajerani, A., Burnett, L., Smith, J. V., Kurmus, H., Milas, J., Arulrajah, A., ... and Abdul Kadir, A. (2019). Nanoparticles in construction materials and other applications, and implications of nanoparticle use. Materials, 12(19): 3052.
- Mohammad, Z. H., Ahmad, F., Ibrahim, S. A., and Zaidi, S. (2022). Application of nanotechnology in different aspects of the food industry. Discover Food, 2(1): 12.
- Montano, M. D., Badiei, H. R., Bazargan, S., and Ranville, J. F. (2014). Improvements in the detection and characterization of engineered nanoparticles using spICP-MS with microsecond dwell times. Environmental Science: Nano, 1(4): 338-346.
- Montazer, M., and Pakdel, E. (2011). Functionality of nano titanium dioxide on textiles with future aspects: Focus on wool. Journal of Photochemistry and Photobiology C: Photochemistry Reviews, 12(4): 293-303.
- Ndukwu, M. C., Ikechukwu-Edeh, C. E., Nwakuba, N. R., Okosa, I., Horsefall, I. T., and Orji, F. N. (2020). Nanomaterials application in greenhouse structures, crop processing machinery, packaging materials and agro-biomass conversion. Materials science for energy technologies, 3: 690-699.
- Nile, S. H., Baskar, V., Selvaraj, D., Nile, A., Xiao, J., and Kai, G. (2020). Nanotechnologies in food science: applications, recent trends, and future perspectives. Nano-micro letters, 12: 1-34.
- Pavlicek, A., Part, F., Rose, G., Praetorius, A., Miernicki, M., Gazsó, A., and Huber-Humer, M. (2021). A European nano-registry as a reliable database for quantitative risk assessment of nanomaterials? A comparison of national approaches. NanoImpact, 21: 100276.
- Pokrajac, L., Abbas, A., Chrzanowski, W., Dias, G. M., Eggleton, B. J., Maguire, S., ... and Mitra, S. (2021). Nanotechnology for a sustainable future: Addressing global challenges with the international network4sustainable nanotechnology, 15: 18608–18623.
- Qi, K., Wang, X., and Xin, J. h. (2011). Photocatalytic self-cleaning textiles based on nanocrystalline titanium dioxide. Textile Research Journal, 81(1): 101–110.
- Roy, A., Sharma, A., Yadav, S., Jule, L. T., and Krishnaraj, R. (2021). Nanomaterials for Remediation of Environmental Pollutants. Bioinorganic Chemistry and Applications.
- Saha, D., Hosen, S. M. Z., and Paul, S. (2015). Pharmaceutical nanotechnology: strategies and techniques of drug therapy, disease and delivery through pharmaceutical biotechnology. University of Mauritius Research Journal, 21.
- Salamanca-Buentello, F., Persad, D. L., Court, E. B., Martin, D. K., Daar, A. S., and Singer, P. A. (2005). Nanotechnology and the developing world. PLoS Medicine, 2(5): 0383-0386.
- Santamaria, A. (2012). Historical Overview of Nanotechnology and Nanotoxicology. Methods in Molecular Biology, 926: 1-11.
- Sargent, J. F. (2008). The National Nanotechnology Initiative: Overview, reauthorization, and appropriations issues. Nanotechnology in the USA: Developments, Policies and Issues.
- Schaming, D., and Remita, H. (2015). Nanotechnology: from the ancient time to nowadays. Foundations of Chemistry, 17: 187-205.
- Singh, J., Dutta, T., Kim, K. H., Rawat, M., Samddar, P., and Kumar, P. (2018). ‘Green’synthesis of metals and their oxide nanoparticles: applications for environmental remediation. Journal of nanobiotechnology, 16(1): 1-24.
- Singh, T., Shukla, S., Kumar, P., Wahla, V., Bajpai, V. K., and Rather, I. A. (2017). Application of nanotechnology in food science: perception and overview. Frontiers in microbiology, 8: 1501.
- Spyrtou, A., Manou, L., and Peikos, G. (2021). Educational significance of nanoscience–nanotechnology: Primary school teachers’ and students’ voices after a training program. Education Sciences, 11(11): 724.
- Sundarrajan, S., Tan, K. L., Lim, S. H., and Ramakrishna, S. (2014). Electrospun nanofibers for air filtration applications. Procedia Engineering, 75: 159-163.
- Wong, I. Y., Bhatia, S. N., and Toner, M. (2013). Nanotechnology: emerging tools for biology and medicine. Genes and development, 27(22): 2397-2408.
- Yunus, I. S., Harwin, Kurniawan, A., Adityawarman, D., and Indarto, A. (2012). Nanotechnologies in water and air pollution treatment. Environmental Technology Reviews, 1(1): 136-148.
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