Nanoparticles for microbial control in water: mechanisms, applications, and ecological implications

IF 4.1 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Frontiers in Nanotechnology Pub Date : 2024-07-25 DOI:10.3389/fnano.2024.1427843

D. B. Olawade, O. Z. Wada, Oluwaseun Fapohunda, Bamise I. Egbewole, Olawale Ajisafe, Abimbola O. Ige

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Abstract

Waterborne microbial contamination poses significant threats to public health and environmental sustainability. Traditional water treatment methods, while effective to a certain extent, are often limited in their ability to completely eradicate microbial pathogens and mitigate emerging challenges such as disinfection by-products and microbial resistance. In recent years, nanoparticles have emerged as promising candidates for microbial control in water treatment due to their unique physicochemical properties and antimicrobial efficacy. This review provides a comprehensive examination of the use of nanoparticles for microbial control in water treatment, focusing on their antimicrobial mechanisms, applications, and ecological implications. The review discusses the types of nanoparticles commonly used in water treatment, including silver nanoparticles, copper nanoparticles, titanium dioxide nanoparticles, and carbon-based nanoparticles, and examines their antimicrobial mechanisms, such as cell membrane damage, reactive oxygen species generation, and interference with microbial metabolic processes. Furthermore, the review explores the applications of nanoparticles in the disinfection of drinking water, wastewater treatment, water purification in remote areas, and biofilm control. Additionally, the ecological implications of nanoparticle-based water treatment, including nanoparticle release into the environment, environmental persistence, toxicity to non-target organisms, and regulatory challenges, are critically evaluated. Finally, future perspectives and challenges in nanoparticle-based water treatment, such as enhanced nanoparticle synthesis and stability, development of sustainable treatment technologies, integration with conventional methods, and addressing knowledge gaps, are discussed. Overall, this review provides valuable insights into the potential of nanoparticles as innovative tools for addressing microbial contamination in water treatment while highlighting the need for further research and sustainable practices to ensure their safe and effective implementation.

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用于控制水中微生物的纳米颗粒：机制、应用和生态影响

水源微生物污染对公众健康和环境可持续性构成重大威胁。传统的水处理方法虽然在一定程度上有效，但在彻底消除微生物病原体和缓解新出现的挑战（如消毒副产物和微生物抗药性）方面往往能力有限。近年来，纳米粒子因其独特的物理化学特性和抗菌功效，已成为水处理中微生物控制的理想候选物质。本综述全面探讨了纳米粒子在水处理中的微生物控制应用，重点关注其抗菌机制、应用和生态影响。综述讨论了水处理中常用的纳米粒子类型，包括纳米银粒子、纳米铜粒子、纳米二氧化钛粒子和碳基纳米粒子，并研究了它们的抗菌机制，如细胞膜损伤、活性氧生成和干扰微生物代谢过程。此外，综述还探讨了纳米粒子在饮用水消毒、废水处理、偏远地区水净化和生物膜控制方面的应用。此外，还批判性地评估了基于纳米粒子的水处理对生态环境的影响，包括纳米粒子在环境中的释放、环境持久性、对非目标生物的毒性以及监管方面的挑战。最后，还讨论了基于纳米粒子的水处理的未来前景和挑战，如增强纳米粒子的合成和稳定性、开发可持续处理技术、与传统方法相结合以及解决知识差距等。总之，本综述对纳米粒子作为解决水处理中微生物污染的创新工具的潜力提供了宝贵的见解，同时强调了进一步研究和可持续实践的必要性，以确保其安全有效地实施。

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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