Empowering TiO2-coated PVDF membranes stability with polyaniline and polydopamine for synergistic separation and photocatalytic enhancement in dye wastewater purification.

IF 3.8 2区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Scientific Reports Pub Date : 2024-07-10 DOI:10.1038/s41598-024-66996-w
Thi My Hanh Le, Rasika Chuchak, Sermpong Sairiam
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Abstract

Photocatalytic membranes are effective in removing organic dyes, but their low UV resistance poses a challenge. To address this, self-protected photocatalytic PVDF membranes were developed using polyaniline (PANI) and polydopamine (PDA), whaich are anti-oxidation polymers, as interlayers between the membrane and TiO2. PVDF membranes were first modified by a self-polymerization layer of either PANI or PDA and then coated with titanium dioxide (TiO2). The TiO2 remained firmly attached to the PANI and PDA layer, regardless of sonication and prolonged usage. The PANI and PDA layers enhanced the durability of PVDF membrane under UV/TiO2 activation. After 72 h of irradiation, PVDF-PDA-TiO2 and PVDF-PANI-TiO2 membranes exhibited no significant change. This process improved both separation and photocatalytic activity in dye wastewater treatment. The PVDF-PDA-TiO2 and PVDF-PANI-TiO2 membranes showed enhanced membrane hydrophilicity, aiding in the rejection of organic pollutants and reducing fouling. The modified membranes exhibited a significant improvement in the flux recovery rate, attributed to the synergistic effects of high hydrophilicity and photocatalytic activity. Specially, the flux recovery rate increased from 17.7% (original PVDF) to 56.3% and 37.1% for the PVDF-PDA-TiO2 membrane and PVDF-PANI-TiO2 membrane. In dye rejection tests, the PVDF‒PDA‒TiO2 membrane achieved 88% efficiency, while the PVDF‒PANI‒TiO2 reached 95.7%. Additionally, the photodegradation of Reactive Red 239 (RR239) by these membranes further improved dye removal. Despite an 11% reduction in flux, the PVDF-PDA-TiO2 membrane demonstrated greater durability and longevity. The assistance of PANI and PDA in TiO2 coating also improved COD removal (from 33 to 58-68%) and provided self-protection for photocatalytic membranes, indicating that these photocatalytic membranes can contribute to more sustainable wastewater treatment processes.

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利用聚苯胺和聚多巴胺增强 TiO2 涂层 PVDF 膜的稳定性,从而在染料废水净化中实现协同分离和光催化增效。
光催化膜可有效去除有机染料,但其抗紫外线能力较低,这对其提出了挑战。为了解决这个问题,我们使用聚苯胺(PANI)和聚多巴胺(PDA)这两种抗氧化聚合物作为膜与二氧化钛之间的中间层,开发出了自我保护的光催化聚偏二氟乙烯膜。首先用 PANI 或 PDA 的自聚合层对 PVDF 膜进行改性,然后涂上二氧化钛 (TiO2)。无论超声或长时间使用,二氧化钛都能牢固地附着在 PANI 和 PDA 层上。PANI 和 PDA 层增强了 PVDF 膜在紫外线/二氧化钛活化下的耐久性。辐照 72 小时后,PVDF-PDA-TiO2 膜和 PVDF-PANI-TiO2 膜没有发生明显变化。该工艺提高了染料废水处理中的分离能力和光催化活性。PVDF-PDA-TiO2 和 PVDF-PANI-TiO2 膜的亲水性增强,有助于去除有机污染物并减少污垢。由于高亲水性和光催化活性的协同作用,改性膜的通量回收率显著提高。特别是,PVDF-PDA-TiO2 膜和 PVDF-PANI-TiO2 膜的通量回收率分别从 17.7%(原始 PVDF)提高到 56.3%和 37.1%。在染料去除测试中,PVDF-PDA-TiO2 膜的效率达到 88%,而 PVDF-PANI-TiO2 则达到 95.7%。此外,这些膜对活性红 239(RR239)的光降解进一步提高了染料去除率。尽管通量减少了 11%,但 PVDF-PDA-TiO2 膜的耐久性和使用寿命更长。PANI 和 PDA 在 TiO2 涂层中的辅助作用也提高了 COD 去除率(从 33% 提高到 58-68%),并为光催化膜提供了自我保护,这表明这些光催化膜可以为更可持续的废水处理过程做出贡献。
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
Scientific Reports
Scientific Reports Natural Science Disciplines-
CiteScore
7.50
自引率
4.30%
发文量
19567
审稿时长
3.9 months
期刊介绍: We publish original research from all areas of the natural sciences, psychology, medicine and engineering. You can learn more about what we publish by browsing our specific scientific subject areas below or explore Scientific Reports by browsing all articles and collections. Scientific Reports has a 2-year impact factor: 4.380 (2021), and is the 6th most-cited journal in the world, with more than 540,000 citations in 2020 (Clarivate Analytics, 2021). •Engineering Engineering covers all aspects of engineering, technology, and applied science. It plays a crucial role in the development of technologies to address some of the world''s biggest challenges, helping to save lives and improve the way we live. •Physical sciences Physical sciences are those academic disciplines that aim to uncover the underlying laws of nature — often written in the language of mathematics. It is a collective term for areas of study including astronomy, chemistry, materials science and physics. •Earth and environmental sciences Earth and environmental sciences cover all aspects of Earth and planetary science and broadly encompass solid Earth processes, surface and atmospheric dynamics, Earth system history, climate and climate change, marine and freshwater systems, and ecology. It also considers the interactions between humans and these systems. •Biological sciences Biological sciences encompass all the divisions of natural sciences examining various aspects of vital processes. The concept includes anatomy, physiology, cell biology, biochemistry and biophysics, and covers all organisms from microorganisms, animals to plants. •Health sciences The health sciences study health, disease and healthcare. This field of study aims to develop knowledge, interventions and technology for use in healthcare to improve the treatment of patients.
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