Carbon-Nanotube-Based Nanocomposites in Environmental Remediation: An Overview of Typologies and Applications and an Analysis of Their Paradoxical Double-Sided Effects.

IF 6.8 Q1 TOXICOLOGY

Journal of Xenobiotics Pub Date : 2025-05-21 DOI:10.3390/jox15030076

Silvana Alfei, Guendalina Zuccari

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Abstract

Incessant urbanization and industrialization have resulted in several pollutants being increasingly produced and continuously discharged into the environment, altering its equilibrium, with a high risk for living organisms' health. To restore it, new advanced materials for remediating gas streams, polluted soil, water, wastewater, groundwater and industrial waste are continually explored. Carbon-based nanomaterials (CNMs), including quantum dots, nanotubes, fullerenes and graphene, have displayed outstanding effectiveness in the decontamination of the environment by several processes. Carbon nanotubes (CNTs), due to their nonpareil characteristics and architecture, when included in absorbents, filter membranes, gas sensors, etc., have significantly improved the efficiency of these technologies in detecting and/or removing inorganic, organic and gaseous xenobiotics and pathogens from air, soil and aqueous matrices. Moreover, CNT-based membranes have displayed significant potential for efficient, fast and low-energy water desalination. However, despite CNTs serving as very potent instruments for environmental detoxification, their extensive utilization could, paradoxically, be highly noxious to the environment and, therefore, humans, due to their toxicity. The functionalization of CNTs (F-CNTs), in addition to further enhancing their absorption capacity and selectivity, has increased their hydrophilicity, thus minimizing their toxicity and carcinogenic effects. In this scenario, this review aims to provide evidence of both the enormous potential of CNTs in sustainable environmental remediation and the concerning hazards to the environment and living organisms that could derive from their extensive and uncontrolled utilization. To this end, an introduction to CNTs, including their eco-friendly production from biomass, is first reported. Several literature reports on CNTs' possible utilization for environmental remediation, their potential toxicity due to environmental accumulation and the challenges of their regeneration are provided using several reader-friendly tools, to better capture readers' attention and make reading easier.

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碳纳米管基纳米复合材料在环境修复中的应用：类型和应用综述及其矛盾的双面效应分析。

不断的城市化和工业化导致多种污染物不断产生并排放到环境中，改变了环境的平衡，给生物的健康带来了很高的风险。为了恢复它，人们不断探索新的先进材料来修复气流、受污染的土壤、水、废水、地下水和工业废物。碳基纳米材料（CNMs），包括量子点、纳米管、富勒烯和石墨烯，通过几种工艺在环境净化中显示出卓越的有效性。碳纳米管（CNTs）由于其独特的特性和结构，当被用于吸收剂、过滤膜、气体传感器等中时，显著提高了这些技术在检测和/或去除空气、土壤和水基质中的无机、有机和气态异种生物和病原体方面的效率。此外，碳纳米管基膜在高效、快速和低能耗的海水淡化方面显示出巨大的潜力。然而，尽管碳纳米管是非常有效的环境解毒工具，但矛盾的是，由于其毒性，碳纳米管的广泛使用可能对环境和人类具有高度毒性。碳纳米管（F-CNTs）的功能化除了进一步增强其吸收能力和选择性外，还增加了其亲水性，从而最大限度地减少了其毒性和致癌作用。在这种情况下，这篇综述旨在提供证据，证明碳纳米管在可持续环境修复中的巨大潜力，以及碳纳米管的广泛和不受控制的利用可能对环境和生物体造成的相关危害。为此，本文首先介绍了碳纳米管，包括从生物质中环保生产碳纳米管。为了更好地吸引读者的注意力，使读者更容易阅读，本文使用了几种读者友好的工具，对碳纳米管在环境修复中的可能利用、碳纳米管在环境积累中的潜在毒性以及碳纳米管再生面临的挑战进行了文献报道。

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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来源期刊

Journal of Xenobiotics TOXICOLOGY-

CiteScore

5.30

自引率

1.70%

发文量

审稿时长

10 weeks

期刊介绍： The Journal of Xenobiotics publishes original studies concerning the beneficial (pharmacology) and detrimental effects (toxicology) of xenobiotics in all organisms. A xenobiotic (“stranger to life”) is defined as a chemical that is not usually found at significant concentrations or expected to reside for long periods in organisms. In addition to man-made chemicals, natural products could also be of interest if they have potent biological properties, special medicinal properties or that a given organism is at risk of exposure in the environment. Topics dealing with abiotic- and biotic-based transformations in various media (xenobiochemistry) and environmental toxicology are also of interest. Areas of interests include the identification of key physical and chemical properties of molecules that predict biological effects and persistence in the environment; the molecular mode of action of xenobiotics; biochemical and physiological interactions leading to change in organism health; pathophysiological interactions of natural and synthetic chemicals; development of biochemical indicators including new “-omics” approaches to identify biomarkers of exposure or effects for xenobiotics.