Cutting-Edge Strategies and Advancements for Combating Synthetic Polymer Pollution in Various Environmental Samples: A Review

IF 1.9 4区 化学 Q3 CHEMISTRY, MULTIDISCIPLINARY ChemistrySelect Pub Date : 2024-11-18 DOI:10.1002/slct.202402408
Samreen Sajad, Bharat Kumar Allam, Sushmita Banerjee, M. Z. A. Yahya, Nor Mas Mira Abd Rahman, Pramod Kumar Singh
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Abstract

Plastic debris is unavoidably released into the ecosystems, and their physicochemical and mechanical qualities deteriorate when exposed to the environment. This, ultimately, leads to the generation of tiny fragments of plastic, which are known as nanoplastics (<1000 nm) and microplastics (<5 mm). Over the past few years, the pollution of synthetic polymers has been reported in almost all the compartments of the environment across the globe. It is regarded as a hazard to both human health and natural systems. In addition, synthetic polymers act as vectors for contaminants as they can adsorb and accumulate contaminants from seawater. The accumulation of plastic waste in the environment and its widespread presence have drawn the attention of policymakers and the public. This global issue has led to the creation of numerous remediation solutions by innovators in previous decades, either to clear up old waste or to stop plastic from entering the various matrices of the environment. This review focused on the extensive scientific research available on effective techniques for removing plastic debris to promote positive action and progress in this important area. Despite the various challenges, these techniques offer vital opportunities, from increasing awareness to enhancing environmental quality. Further, the article has been enriched by incorporating bibliometric data that illustrates the widely used methods for removing microplastics from various environmental matrices. According to the data analysis, numerous remediation techniques have been developed to date (2010 and 2024). These techniques encompass various approaches, among which the chemical-based methods enjoy more success. This success can be attributed to the diverse advantages offered by chemical-based methods over other remediation techniques. Much research is now focused on overcoming the disadvantages and developing more efficient and environmentally sound technologies.

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应对各种环境样本中合成聚合物污染的前沿策略与进展:综述
塑料碎片不可避免地会被释放到生态系统中,当暴露在环境中时,它们的物理化学和机械性能就会退化。这最终导致产生微小的塑料碎片,即所谓的纳米塑料(1000 纳米)和微塑料(5 毫米)。在过去几年中,全球几乎所有的环境区域都出现了合成聚合物污染的报道。它被认为是对人类健康和自然系统的一种危害。此外,合成聚合物还可以吸附和积累海水中的污染物,从而成为污染物的载体。塑料废物在环境中的积累及其广泛存在引起了决策者和公众的关注。这一全球性问题促使创新者在过去几十年中创造了大量补救解决方案,以清除旧废物或阻止塑料进入环境中的各种基质。本综述重点介绍了有关清除塑料垃圾的有效技术的大量科学研究,以促进在这一重要领域采取积极行动并取得进展。尽管存在各种挑战,但这些技术提供了从提高认识到提高环境质量的重要机会。此外,文章还纳入了文献计量数据,说明了从各种环境基质中去除微塑料的广泛使用方法,从而使文章更加丰富。根据数据分析,迄今为止(2010 年和 2024 年)已开发出多种补救技术。这些技术包括各种方法,其中以化学为基础的方法更为成功。这种成功可归因于化学方法与其他修复技术相比所具有的各种优势。目前,许多研究都集中在克服这些缺点和开发更高效、更环保的技术上。
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来源期刊
ChemistrySelect
ChemistrySelect Chemistry-General Chemistry
CiteScore
3.30
自引率
4.80%
发文量
1809
审稿时长
1.6 months
期刊介绍: ChemistrySelect is the latest journal from ChemPubSoc Europe and Wiley-VCH. It offers researchers a quality society-owned journal in which to publish their work in all areas of chemistry. Manuscripts are evaluated by active researchers to ensure they add meaningfully to the scientific literature, and those accepted are processed quickly to ensure rapid online publication.
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