Enhanced water purification through the double regulation of GO/MXene membranes with sodium alginate and KOH

IF 9 1区工程技术 Q1 ENGINEERING, CHEMICAL Separation and Purification Technology Pub Date : 2025-08-14 Epub Date: 2025-02-25 DOI:10.1016/j.seppur.2025.132287

Wenshuai Jiang , Yaning Wang , Yiheng Liu , Qianfang Jia , Caojie Zhao , Jin Yang , Wu Ren , Qingjun Liu

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Abstract

Graphene oxide (GO) and MXene-based membranes have been widely used in the field of water purification due to their excellent separation properties. However, the poor stabilities of these species in water and the ‘trade-off’ effect between permeability and retention greatly limit their practical applications. In this study, modified GO/MXene composite membranes were prepared via double regulation with sodium alginate (SA) and KOH. During the modulation process, SA formed more hydrogen bonds with GO/MXene nanosheets. Meanwhile, SA acts as a “mortar” during the assembly of GO/MXene nanosheets, avoiding their aggregation and disordered stacking. During the subsequent regulation in the KOH solution, K+ not only enlarged the interlayer spacing of the composite membrane, but also interacted with the oxidation groups on the GO (cation-π) to play a fixed role in fixing the interlayer spacing of the composite membrane to reduce the swelling of the composite membrane. Furthermore, the number of oxygen-containing functional groups on the surfaces of the GO/MXene composite membranes was significantly reduced under alkaline conditions, which further enhanced the selectivity of the composite membranes to the selectivity of the composite membrane to the dye molecules. Due to the synergistic effect generated by the dual regulation of SA and KOH, the K+/GO/MXene composite membranes exhibited excellent water treatment performance, in terms of their permeability and dye retention, as well as high physical stability. By optimizing the content of SA and the ratio of GO/MXene, the composite membrane with the optimal separation performance was successfully synthesized. Compared with ordinary GO/MXene composite membranes, the water flux of the K+/GO/MXene-SA composite membrane was enhanced from 48 to 88.07 Lm⁻² h⁻¹ bar⁻¹.The K+/GO/MXene-SA composite membrane has excellent MB dye separation performance, with a removal rate of more than 97.75 %. In addition, the K+/GO/MXene-SA composite membrane demonstrated an excellent structural stability in acidic and alkaline solutions. The filtered composite membrane still maintains excellent stability and has good recyclability after desorption.These results therefore provide new insights into the design of two-dimensional membrane separation materials for use in the purification of dye effluents.

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海藻酸钠和KOH对氧化石墨烯/MXene膜的双重调控提高了水的净化效果

氧化石墨烯（GO）和mxene基膜由于其优异的分离性能在水净化领域得到了广泛的应用。然而，这些物种在水中的稳定性差，以及渗透率和保留率之间的“权衡”效应极大地限制了它们的实际应用。在本研究中，通过海藻酸钠（SA）和KOH的双重调控制备了改性氧化石墨烯/MXene复合膜。在调制过程中，SA与GO/MXene纳米片形成了更多的氢键。同时，SA在GO/MXene纳米片的组装过程中起到了“砂浆”的作用，避免了它们的聚集和无序堆积。在KOH溶液中的后续调节过程中，K+不仅扩大了复合膜的层间间距，而且与GO上的氧化基团（阳离子-π）相互作用，起到固定复合膜层间间距的固定作用，从而减少复合膜的膨胀。此外，在碱性条件下，氧化石墨烯/MXene复合膜表面含氧官能团的数量显著减少，这进一步增强了复合膜对染料分子的选择性。由于SA和KOH的双重调控产生的协同作用，使得K+/GO/MXene复合膜具有优异的水处理性能、透水性和保染性，以及较高的物理稳定性。通过优化SA的含量和GO/MXene的比例，成功合成了具有最佳分离性能的复合膜。与普通GO/MXene复合膜相比，K+/GO/MXene- sa复合膜的水通量从48提高到88.07 Lm−2 h−1 bar−1。K+/GO/MXene-SA复合膜具有优异的MB染料分离性能，去除率达97.75 %以上。此外，K+/GO/MXene-SA复合膜在酸性和碱性溶液中均表现出良好的结构稳定性。经过滤后的复合膜解吸后仍保持优良的稳定性和良好的可回收性。因此，这些结果为设计用于染料废水净化的二维膜分离材料提供了新的见解。

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来源期刊

Separation and Purification Technology 工程技术-工程：化工

CiteScore

14.00

自引率

12.80%

发文量

2347

审稿时长

43 days

期刊介绍： Separation and Purification Technology is a premier journal committed to sharing innovative methods for separation and purification in chemical and environmental engineering, encompassing both homogeneous solutions and heterogeneous mixtures. Our scope includes the separation and/or purification of liquids, vapors, and gases, as well as carbon capture and separation techniques. However, it's important to note that methods solely intended for analytical purposes are not within the scope of the journal. Additionally, disciplines such as soil science, polymer science, and metallurgy fall outside the purview of Separation and Purification Technology. Join us in advancing the field of separation and purification methods for sustainable solutions in chemical and environmental engineering.