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Automated Nano-Technology Based Particulate Filters to a Clean Environment in Rooms of Biomedical Applications
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The products or the process of production are highly sensitive to contamination on the environment. In this regard, manufacturing of semiconductors and their related application plays a major cause. The airborne concentration of particulates like chemical vapours or dust compounds can be found even an enclosed environment. This accounts for pollution in clean rooms for the purpose of biomedical applications. These rooms should be monitored highly and should be protected from harmful substances and contamination risks. In this paper, we clean the air that is entering the room that is filtered with nano-particle based filters to eliminate the dust. The air is recirculated via nano-particulate high efficiency particulate air filter. These filters connected with nano-materials absorbs the contaminants. The implantable particulate filters are the edges of the room enables a clean environment. The experimental testing is conducted using several nano-filters that is connected with power design circuits to automatically control the entire environment. The results achieved show that the presence of microbials in the room is cleaned effectively.
Keywords
Airborne Particulates, Pollution, Nano-Particle Filters, Clean Environment.
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- Kalpana, V. N., & Devi Rajeswari, V. (2018). A review on green synthesis, biomedical applications, and toxicity studies of ZnO NPs. Bioinorganic chemistry and applications, 2018.
- Teaima, M. H., Abdelnaby, F. A., Fadel, M., El-Nabarawi, M. A., & Shoueir, K. R. (2020). Synthesis of Biocompatible and Environmentally Nanofibrous Mats Loaded with Moxifloxacin as a Model Drug for Biomedical Applications. Pharmaceutics, 12(11), 1029.
- Arif, U., Haider, S., Haider, A., Khan, N., Alghyamah, A. A., Jamila, N., ... & Kang, I. K. (2019). Biocompatible polymers and their potential biomedical applications: A review. Current pharmaceutical design, 25(34), 3608-3619.
- Rastogi, S., Sharma, G., & Kandasubramanian, B. (2020). Nanomaterials and the Environment. The ELSI Handbook of Nanotechnology: Risk, Safety, ELSI and Commercialization, 1-23.
- Jiang, F., Yan, D., Lin, J., Kong, H., & Yao, Q. (2021). Implantation of multiscale silk fibers on poly (lactic acid) fibrous membrane for biomedical applications. Materials Today Chemistry, 21, 100494.
- Song, W., Wang, Y., Wang, B., Yao, Y., Wang, W., Wu, J., ... & Zou, Z. (2020). Super stable CsPbBr3@ SiO2 tumor imaging reagent by stress-response encapsulation. Nano Research, 13(3), 795-801.
- Sajjadi, M., Ahmadpoor, F., Nasrollahzadeh, M., & Ghafuri, H. (2021). Lignin-derived (nano) materials for environmental pollution remediation: Current challenges and future perspectives. International Journal of Biological Macromolecules.
- Liu, Z., Liu, Y., Shen, S., & Wu, D. (2018). Progress of recyclable magnetic particles for biomedical applications. Journal of Materials Chemistry B, 6(3), 366-380.
- Fu, X., Cai, J., Zhang, X., Li, W. D., Ge, H., & Hu, Y. (2018). Top-down fabrication of shape-controlled, monodisperse nanoparticles for biomedical applications. Advanced drug delivery reviews, 132, 169-187.
- Afsheen, S., Tahir, M. B., Iqbal, T., Liaqat, A., & Abrar, M. (2018). Green synthesis and characterization of novel iron particles by using different extracts. Journal of Alloys and Compounds, 732, 935-944.
- Gundo, S., Parauha, Y. R., Singh, N., & Dhoble, S. J. (2021, May). Eco-friendly synthesis route of silver nanoparticle: A review. In Journal of Physics: Conference Series (Vol. 1913, No. 1, p. 012052). IOP Publishing.
- Sakthivel, M., Franklin, D. S., Sudarsan, S., Chitra, G., Sridharan, T. B., & Guhanathan, S. (2019). Gold nanoparticles embedded itaconic acid-based hydrogels. SN Applied Sciences, 1(2), 146.
- Raipuria, V., Rani, N., Sharma, V. P., & Naiya, T. K. (2018). Use of nanoparticle derived from natural source and its application in drilling fluid. International Journal of Oil, Gas and Coal Technology, 19(3), 283-295.
- Demissie, M. G., Sabir, F. K., Edossa, G. D., & Gonfa, B. A. (2020). Synthesis of zinc oxide nanoparticles using leaf extract of lippia adoensis (koseret) and evaluation of its antibacterial activity. Journal of Chemistry, 2020.
- Osman, E. (2020). Nanofinished Medical Textiles and Their Potential Impact to Health and Environment. Nanoparticles and Their Biomedical Applications; Springer: Singapore, 127-145.
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