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使用硅藻土纳米复合材料去除纺织染料:光合微藻辅助微生物燃料电池的宏基因组学研究

Textile dye removal using diatomite nanocomposites: a metagenomic study in photosynthetic microalgae-assisted microbial fuel cells.

作者信息

Rai Anshuman, Sirotiya Vandana, Ahirwar Ankesh, Singh Gurpreet, Kawatra Rajeev, Sharma Anil K, Vinayak Vandana

机构信息

MMU, Deemed University, School of Engineering, Department of Biotechnology Ambala Haryana 133203 India.

Forensic Science Laboratory Haryana Madhuban 132037 India.

出版信息

RSC Adv. 2025 Mar 17;15(11):8300-8314. doi: 10.1039/d5ra00793c.

DOI:10.1039/d5ra00793c
PMID:40103993
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11912554/
Abstract

In this study, Coomassie brilliant blue (CBB), brilliant green (BG), and rhodamine (Rh) dyes were used to simulate dye-rich wastewater. Adsorption and degradation of these dyes (2 μM, 10 μM, and 30 μM) on diatomite (DE) were evaluated under light (L) and dark (D) conditions. The adsorption of dye-DE composites followed pseudo-second-order kinetics at all concentrations and conditions had > 0.99, thus showing a good fit. The calculated equilibrium adsorption amount was coherent with the value of experimental . The poorest adsorption and photocatalysis occurred at 30 μM, prompting the functionalization of dyes with TiO and FeO nanoparticles (NP(s)). The highest dye degradation efficiencies (DG) for 30 μM dyes were 86.79% (CBB-DE-FeO, 72 h), 96.10% (BG-DE-TiO, 52 h), and 81.74% (Rh-DE-TiO, 48 h), with Rh-DE-TiO showing the fastest degradation. Functionalized DE-dye (30 μM) nanocomposites were further tested in a photosynthetic microalgae-assisted microbial fuel cell with dye-simulated wastewater at the anode (PMA-MFC-1 with CBB-DE-FeO, PMA-MFC-2 with BG-DE-TiO and PMA-MFC-3 with Rh-DE-TiO) and sp. GA4 microalgae at the cathode. In dark anode chambers, PMA-MFC-3 achieved the highest DG value of Rh dye as 88.23% and a polarization density of 30.06 mW m, outperforming PMA-MFC-2 with BG dye and PMA-MFC-1 with CBB dye. The molecular identifier analysis of microbes in wastewater at the anode showed the dominance of Sphingobacteria and Proteobacteria in PMA-MFC-3 (Rh-DE-TiO) and COD removal of 61.36%, highlighting its potential for efficient dye degradation and bioelectricity generation. Furthermore, PMA-MFC-3 simultaneously demonstrated a superior microalgal lipid yield of 3.42 μg g and an algal growth of 8.19 μg g at the cathode.

摘要

在本研究中,考马斯亮蓝(CBB)、亮绿(BG)和罗丹明(Rh)染料被用于模拟富含染料的废水。在光照(L)和黑暗(D)条件下,评估了这些染料(2μM、10μM和30μM)在硅藻土(DE)上的吸附和降解情况。在所有浓度和条件下,染料 - DE复合材料的吸附均符合准二级动力学,相关系数均>0.99,拟合效果良好。计算得到的平衡吸附量与实验值相符。在30μM时吸附和光催化效果最差,因此使用TiO和FeO纳米颗粒(NP(s))对染料进行功能化处理。对于30μM的染料,最高的染料降解效率(DG)分别为86.79%(CBB - DE - FeO,72小时)、96.10%(BG - DE - TiO,52小时)和81.74%(Rh - DE - TiO,48小时),其中Rh - DE - TiO的降解速度最快。功能化的DE - 染料(30μM)纳米复合材料在光合微藻辅助微生物燃料电池中进一步测试,阳极使用染料模拟废水(PMA - MFC - 1使用CBB - DE - FeO,PMA - MFC - 2使用BG - DE - TiO,PMA - MFC - 3使用Rh - DE - TiO),阴极使用sp. GA4微藻。在黑暗的阳极室中,PMA - MFC - 3对Rh染料的DG值最高,为88.23%,极化密度为30.06 mW m,优于使用BG染料的PMA - MFC - 2和使用CBB染料的PMA - MFC - 1。阳极废水中微生物的分子鉴定分析表明,鞘氨醇杆菌属和变形菌门在PMA - MFC - 3(Rh - DE - TiO)中占主导地位,化学需氧量(COD)去除率为61.36%,突出了其高效降解染料和产生生物电的潜力。此外,PMA - MFC - 3在阴极同时表现出3.42μg g的优异微藻脂质产量和8.19μg g的藻类生长量。

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