A review on the current approach for the sustainable production of nanocomposites from agricultural wastes and their application for the adsorption of organophosphate flame retardants

Anna E. Ivbanikaro, Jonathan O Okonkwo, E. Rotimi Sadiku, C. Maepa
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Abstract

Water pollution caused by emerging organic pollutants such as the halogenated organophosphate flame retardants, has exacerbated the issue of water scarcity. An eco-friendly technology, e.g., the adsorption technique, requires the use of affordable and safe adsorbents. Agricultural waste materials are promising adsorbents for wastewater remediation due to their relative abundance, biodegradability, non-toxic and cost-effective properties. However, most agricultural wastes are not ideal for adsorption in their raw forms and may require physical or chemical pre-treatments/modification, in order to increase the materials' compatibility and natural adsorption properties. Cellulose is an important constituent of plant residues that can be used as a precursor for the production of greener and sustainable industrial nanomaterials. Therefore, in this review, a discourse on the most recent approach/strategies for the modification of a range of agricultural wastes is presented. The result from their applications showed agricultural wastes has great prospects as adsorbents. The challenges encountered in the synthesis of plant-based adsorbents and the development of 3-D structured nanocomposites from cellulose, to circumvent these difficulties is extensively reviewed. Furthermore, the prospects in the application of cellulose beads/ZnO nanocomposites (CB-ZnO) derived from the maize tassel, for the adsorption of the halogenated organophosphate esters from aqueous matrices are presented in this review
综述当前利用农业废弃物可持续生产纳米复合材料的方法及其在有机磷阻燃剂吸附方面的应用
卤代有机磷阻燃剂等新出现的有机污染物造成的水污染加剧了水资源短缺问题。生态友好型技术(如吸附技术)需要使用价格低廉且安全的吸附剂。农业废弃物具有相对丰富、可生物降解、无毒和成本效益高的特点,是一种很有前景的废水修复吸附剂。然而,大多数农业废弃物的原始形态并不适合吸附,可能需要进行物理或化学预处理/改性,以提高材料的兼容性和天然吸附特性。纤维素是植物残留物的重要成分,可用作生产更环保、更可持续的工业纳米材料的前体。因此,本综述介绍了一系列农业废弃物改性的最新方法/策略。其应用结果表明,农业废弃物作为吸附剂具有广阔的前景。文章广泛综述了植物基吸附剂合成过程中遇到的挑战,以及为克服这些困难而开发的纤维素三维结构纳米复合材料。此外,本综述还介绍了从玉米穗中提取的纤维素珠/氧化锌纳米复合材料(CB-ZnO)在从水性基质中吸附卤代有机磷酸酯方面的应用前景。
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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