Developing Anti-Fungal and Anti-Bacterial Mortar Using Zinc Oxide Nanorods

Journal of Advanced Materials in Engineering Pub Date : 2023-01-01 DOI:10.55571/aje.2023016

Parinita Baruah, Gitartha Kalita

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Abstract

Fungal and bacterial growth are two factors primarily responsible for the degradation and breakdown of the surfaces of buildings and structures. Fungi, which cause molds in buildings, develop rapidly in humid places like Assam and can cause deadly diseases such as Histoplasmosis. Remedial measures for these molds are expensive and cumbersome. Bacteria can result in Sick Building Syndrome (SBS), which causes acute health problems in people living in these buildings. Bacteria mostly grow in the damp walls of hospitals and cause acute diseases in people, which is a worldwide problem in humid countries. Nanotechnology can be utilized to solve these problems to a great extent, providing relief to the world's population. Tests with Zinc Oxide (ZnO) Nanorods grown on prepared mortar samples using hydrothermal techniques revealed dense growth of Nanorods deep into the pores of the mortar samples on scanning electron micrographs. This anti-fungal and anti-bacterial study was done on the prepared Ordinary Portland cement mortar sample with fungus Aspergillus Niger and bacteria Escherichia coli (gram-negative) and microorganisms samples collected from local hospital buildings

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用氧化锌纳米棒制备抗真菌抗菌砂浆

真菌和细菌的生长是建筑物和结构表面降解和破裂的两个主要原因。真菌会在建筑物中产生霉菌，在阿萨姆邦这样潮湿的地方迅速生长，并可能导致组织胞浆菌病等致命疾病。这些模具的补救措施既昂贵又繁琐。细菌会导致病态建筑综合症(SBS)，这会给居住在这些建筑中的人带来严重的健康问题。细菌大多生长在医院潮湿的墙壁上，引起人们的急性疾病，这在潮湿的国家是一个世界性的问题。纳米技术可以在很大程度上解决这些问题，为世界人口提供救济。利用水热技术在砂浆样品上生长氧化锌(ZnO)纳米棒，扫描电镜显示纳米棒在砂浆样品的孔隙深处密集生长。本研究对制备的普通波特兰水泥砂浆样品进行了抗真菌和抗菌研究，样品中含有真菌黑曲霉和细菌大肠杆菌(革兰氏阴性)以及从当地医院建筑物中采集的微生物样本

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来源期刊

Journal of Advanced Materials in Engineering

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审稿时长

50 weeks