Advancements in Cr(VI) Removal from Aqueous Solution Using PLA/PBAT/GO/Cloisite 30b Hybrid Nanocomposite Polymer Inclusion Membranes

IF 3.8 4区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Water, Air, & Soil Pollution Pub Date : 2024-10-06 DOI:10.1007/s11270-024-07550-2

Meriem Houda Hammadi, Samia Kerakra, Said Bey, Ferhat Sellami, Atmane Djermoune, Abderrahmane Habi

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Abstract

Removing heavy metal ions from wastewater reduces health and ecological risks and allows for their reuse. Polymer inclusion membranes with integrated ion carriers offer an efficient solution for removing toxic metal ions from industrial wastewater. These membranes can be further enhanced by using biodegradables polymer blends and incorporating nanofillers to improve their selectivity, stability, extraction efficiency, and biodegradability. In this study, a novel biodegradable polymer blend consisting of 54% poly(lactic acid) (PLA) and 13% polybutylene adipate terephthalate (PBAT) was utilized as the base polymer, with 30% Aliquat 336 as an ion carrier and either 3% graphene oxide (GO) or 3% cloisite 30B (C30B) as nanofillers. The hybrid blend contained a total of 3% nanofillers, with 1.5% graphene oxide (GO) and 1.5% cloisite 30B (C30B). These components were integrated through the evaporation casting method and evaluated for their potential as polymer inclusion membranes (PIMs) for Cr(VI) extraction. Various analytical methods, including X-ray diffraction (XRD), attenuated total reflectance-Fourier transform infrared (ATR-FTIR) spectroscopy, scanning electron microscopy (SEM), and thermogravimetric analysis (TGA), were employed to explore the microstructure-property relationships of the fabricated nanocomposite PIMs. The analyses revealed the development of new semi-crystalline membrane structures, resulting in enhanced hexavalent chromium extraction. It was found that the presence of nanofillers altered the bulk structure, creating apparent microvoids in the membranes filled with 3% GO and the hybrid membrane, which were not observed in membranes filled with C30B. This resulted in higher extraction efficiency in the membranes loaded with GO, whereas membranes loaded with C30B exhibited decreased Cr(VI) extraction. An intermediate extraction percentage was found in the hybrid membrane filled with both nanofillers. Additionally, the incorporation of GO and C30B significantly improved membrane stability across various media, reducing mass loss in NaCl/NaOH to 13.36%. The TGA analyses further confirmed that membranes incorporating GO and C30B exhibited improved thermal stability.

Graphical Abstract

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利用聚乳酸/PBAT/GO/绿泥石 30b 混合纳米复合聚合物包涵膜去除水溶液中六价铬的研究进展

去除废水中的重金属离子可降低健康和生态风险，并实现废水的再利用。集成离子载体的聚合物包覆膜为去除工业废水中的有毒金属离子提供了有效的解决方案。通过使用可生物降解的聚合物混合物并加入纳米填料，可进一步增强这些膜的选择性、稳定性、萃取效率和生物降解性。在这项研究中，使用了一种新型可生物降解聚合物混合物，其中包括 54% 的聚乳酸（PLA）和 13% 的聚对苯二甲酸丁二醇酯（PBAT）作为基础聚合物，30% 的 Aliquat 336 作为离子载体，3% 的氧化石墨烯（GO）或 3% 的苜蓿石 30B（C30B）作为纳米填料。混合混合物总共含有 3% 的纳米填料，其中 1.5% 为氧化石墨烯 (GO)，1.5% 为氯乙烯 30B (C30B)。这些成分通过蒸发铸造法进行了整合，并评估了它们作为聚合物包合膜（PIM）萃取六价铬的潜力。研究人员采用了多种分析方法，包括 X 射线衍射 (XRD)、衰减全反射-傅立叶变换红外光谱 (ATR-FTIR)、扫描电子显微镜 (SEM) 和热重分析 (TGA)，来探讨所制备的纳米复合 PIM 的微观结构与性能之间的关系。分析结果表明，新型半结晶膜结构的形成增强了六价铬的萃取能力。研究发现，纳米填料的存在改变了整体结构，在填充了 3% GO 的膜和混合膜中产生了明显的微空洞，而在填充了 C30B 的膜中没有观察到这种现象。这使得装填了 GO 的膜的萃取效率更高，而装填了 C30B 的膜的六（Cr）萃取率下降。填充了两种纳米填料的混合膜的萃取率介于两者之间。此外，GO 和 C30B 的加入大大提高了膜在各种介质中的稳定性，在 NaCl/NaOH 中的质量损失降低到 13.36%。热重分析进一步证实，含有 GO 和 C30B 的膜具有更好的热稳定性。

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来源期刊

Water, Air, & Soil Pollution 环境科学-环境科学

CiteScore

4.50

自引率

6.90%

发文量

448

审稿时长

2.6 months

期刊介绍： Water, Air, & Soil Pollution is an international, interdisciplinary journal on all aspects of pollution and solutions to pollution in the biosphere. This includes chemical, physical and biological processes affecting flora, fauna, water, air and soil in relation to environmental pollution. Because of its scope, the subject areas are diverse and include all aspects of pollution sources, transport, deposition, accumulation, acid precipitation, atmospheric pollution, metals, aquatic pollution including marine pollution and ground water, waste water, pesticides, soil pollution, sewage, sediment pollution, forestry pollution, effects of pollutants on humans, vegetation, fish, aquatic species, micro-organisms, and animals, environmental and molecular toxicology applied to pollution research, biosensors, global and climate change, ecological implications of pollution and pollution models. Water, Air, & Soil Pollution also publishes manuscripts on novel methods used in the study of environmental pollutants, environmental toxicology, environmental biology, novel environmental engineering related to pollution, biodiversity as influenced by pollution, novel environmental biotechnology as applied to pollution (e.g. bioremediation), environmental modelling and biorestoration of polluted environments. Articles should not be submitted that are of local interest only and do not advance international knowledge in environmental pollution and solutions to pollution. Articles that simply replicate known knowledge or techniques while researching a local pollution problem will normally be rejected without review. Submitted articles must have up-to-date references, employ the correct experimental replication and statistical analysis, where needed and contain a significant contribution to new knowledge. The publishing and editorial team sincerely appreciate your cooperation. Water, Air, & Soil Pollution publishes research papers; review articles; mini-reviews; and book reviews.