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首页> 美国卫生研究院文献>Nanomaterials >Tailoring Carbon Nanotubes to Enhance Their Efficiency as Electron Shuttle on the Biological Removal of Acid Orange 10 under Anaerobic Conditions
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Tailoring Carbon Nanotubes to Enhance Their Efficiency as Electron Shuttle on the Biological Removal of Acid Orange 10 under Anaerobic Conditions

机译:剪裁碳纳米管以提高厌氧条件下酸橙10的电子班车效率

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Anaerobic treatments have been described for the biodegradation of pollutants. However, the reactions proceed slowly due to the recalcitrant nature of these compounds. Carbon nanomaterials (CNM) intermediate in, and favor, the electron transfer, accelerating the anaerobic reduction of pollutants, which act as final electron acceptors. In the present work, different carbon nanotubes (CNT) with modified surface chemistry, namely CNT oxidized with HNO3 (CNT_HNO3) and CNT doped with nitrogen in a ball milling process (CNT_N_MB) were prepared using commercial CNT as a starting material. The new CNM were tested as redox mediators (RM), 0.1 g L−1, in the biological reduction of the azo dye, Acid Orange 10 (AO10), with an anaerobic granular sludge, over 48 h of reaction. Methane production was also assessed to verify the microorganism’s activity and the CNM’s effect on the methanogenic activity. An improvement in the biological removal of AO10 occurred with all CNM (above 90%), when compared with the control without CNM (only 32.4 ± 0.3%). The best results were obtained with CNT_N_MB, which achieved 98.2 ± 0.1% biological AO10 removal, and an 11-fold reduction rate increase. In order to confer magnetic properties to the CNM, tailored CNT were impregnated with 2% of iron-samples: CNT@2%Fe, CNT@2%Fe_N_MB, and CNT@2%Fe_HNO3. The better performance of the CNT doped with nitrogen was confirmed with CNT@2%Fe_N_MB, and the magnetic character facilitated its recovery after treatment, and did not affect its good catalytic properties. No dye removal was observed in the abiotic assays, so the removal was not due to adsorption on the CNM. Furthermore, the microorganism’s viability was maintained during the assay and methane production was not affected by the presence of the CNM. Despite the toxic character of the aromatic amines formed, detoxification was observed after the biological process with thermally treated CNT.
机译:已经描述了厌氧处理用于污染物的生物降解。然而,由于这些化合物的顽固性,反应慢慢地进行。碳纳米材料(CNM)中间体(CNM)中间体,并有利于电子转移,加速污染物的厌氧减少,其充当最终的电子受体。在本作研究中,使用商业CNT作为原料制备用改性表面化学的不同碳纳米管(CNT),即用HNO 3(CNT_HNO3)和掺杂有氮气的CNT掺杂氮气的CNT。将新的CNM作为氧化还原介质(RM),0.1g L-1,在偶氮染料,酸橙10(AO10)的生物还原中,具有厌氧颗粒污泥,在48小时内反应。还评估了甲烷产量,以验证微生物的活性和CNM对甲烷的影响。与没有CNM的对照相比,所有CNM(高于90%以上)发生的AO10的生物除去的改善(仅32.4±0.3%)。用CNT_N_MB获得最佳结果,其达到98.2±0.1%的生物AO10去除,并增加11倍。为了向CNM赋予磁性,用2%的铁样品浸渍量定制的CNT:CNT @ 2%Fe,CNT @ 2%Fe_N_MB和CNT @ 2%Fe_hnO3。用CNT @ 2%Fe_N_MB确认掺杂氮的CNT的更好性能,并且磁性特征在处理后促进其恢复,并且不会影响其良好的催化性质。在非生物测定中没有观察到染料去除,因此除去不会是由于CNM的吸附。此外,在测定期间维持微生物的活力,并且甲烷产生不受CNM存在的影响。尽管形成了芳香胺的有毒特性,但在具有热处理的CNT的生物过程之后观察到解毒。

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