Machine Learning Assisted Nanomaterials as Super hydrophobic Coatings for Antiviral Functionalities to Fight COVID-19

Engineering and Scientific International Journal Pub Date : 2021-12-27 DOI:10.30726/esij/v8.i4.2021.84026

S. J, S. S, Christabel Pravin Sheena, S. V S

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Abstract

The Coronavirus Disease-19 (COVID-19) pandemic has emerged into a severe problem. The contact spreading of the virus poses more threat to the people. The fast spreading of the virus is due to its endurance for several hours in aerosol and on flat surfaces. This necessitates the need for super hydrophobic coatings on the surfaces of Personal Protection Equipment (PPE), furniture and diagnostic equipment in hospitals. The nanomaterials have been used for inducing anti-viral and anti-bacterial characteristics to the hydrophobic solutions, converting them into super hydrophobic solutions. These nanomaterials on the hydrophobic solutions, encapsulate, suppress and eliminate viruses. For example, graphene has the ability to trap the viruses and transfer electric charges to destroy them. In this review, effective combinations and formulations of nanoparticles for disinfecting surfaces against microbes are presented. Also, the various coating techniques available for converting the fabric surfaces into a super-hydrophobic material is expounded. Further, the incorporation of machine learning models for tuning the nanomaterial parameters is also portrayed.

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机器学习辅助纳米材料作为抗COVID-19抗病毒功能的超级疏水涂层

冠状病毒病-19 (COVID-19)大流行已成为一个严重问题。病毒的接触传播给人们带来了更大的威胁。这种病毒的快速传播是由于它在气溶胶和平面上能持续几个小时。这就需要在医院的个人防护设备(PPE)、家具和诊断设备表面使用超疏水涂层。纳米材料被用于诱导具有抗病毒和抗菌特性的疏水溶液，将其转化为超疏水溶液。这些纳米材料在疏水溶液上包裹、抑制和消灭病毒。例如，石墨烯具有捕获病毒并转移电荷以摧毁它们的能力。在这篇综述中，有效的组合和配方纳米颗粒消毒表面对抗微生物。此外，还阐述了可用于将织物表面转化为超疏水材料的各种涂层技术。此外，还描述了用于调整纳米材料参数的机器学习模型的结合。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Engineering and Scientific International Journal

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