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Exploiting Microbial Polysaccharides for Biosorption of Trace Elements in Aqueous Environments—Scope for Expansion via Nanomaterial Intervention

机译：利用微生物多糖在水环境中对微量元素进行生物吸附-通过纳米材料干预扩大范围

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With pollution sounding high alarms all around us, there is an immediate necessity for remediation. In most cases, the remediation measures require further remediation—the anti-pollutants themselves cause pollution. In this correspondence, the search deepens towards natural biogenic components that can be used for bioremediation. Polysaccharide and biosorption have been themes in discussion for quite some time, where a slow decline in the enthusiasm in this area has been observed. This review revisits the importance of using polysaccharide based materials for biosorption. The need for polysaccharide-based nanocomposites, which hold better promise for greater deliverables, is emphasized as a means of rejuvenating the future perspectives in this area of application.

机译：污染在我们周围发出了很高的警报，迫切需要进行补救。在大多数情况下，补救措施需要进一步补救-抗污染物本身会造成污染。在这种对应关系中，搜索深化了可用于生物修复的天然生物成分。多糖和生物吸附一直是讨论的主题，已经观察到该领域的热情逐渐下降。这篇综述重新探讨了使用基于多糖的材料进行生物吸附的重要性。强调了对基于多糖的纳米复合材料的需求，该复合材料具有更大的可交付成果的更好前景，被认为是振兴该应用领域未来前景的一种手段。

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期刊名称 Polymers
作者
Manikandan Muthu; Hui-Fen Wu; Judy Gopal; Iyyakkannu Sivanesan; Sechul Chun;
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作者单位

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年(卷),期 2011(9),12
年度 2011
页码 721
总页数 12
原文格式 PDF
正文语种
中图分类分子生物学;
关键词
biosorption, biogenic polysaccharide, heavy metal, aqueous environments;

机译：生物吸附;生物多糖;重金属;水性环境;

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1. Exploiting Microbial Polysaccharides for Biosorption of Trace Elements in Aqueous Environments?￠????Scope for Expansion via Nanomaterial Intervention [J] . Hui-Fen Wu, Manikandan Muthu, Sechul Chun, Polymers . 2017,第12期

机译：利用微生物多糖在水环境中对微量元素的生物吸附-通过纳米材料干预扩大范围
2. Biosorption of trace elements from aqueous systems in gold mining sites by the filamentous green algae (Oedogonium sp.) [J] . E.N. Bakatula, E.M. Cukrowska, I.M. Weiersbye Journal of Geochemical Exploration: Journal of the Association of Exploration Geochemists . 2014,第3期

机译：丝状绿藻（Oedogonium sp。）对金矿场水系统中的微量元素的生物吸附。
3. Biosorption of Rare-Earth Elements and Yttrium by Heterotrophic Bacteria in an Aqueous Environment [J] . E. S. Kazak, E. G. Kalitina, N. A. Kharitonova, Moscow University geology bulletin . 2018,第3期

机译：含水环境中异养细菌的稀土元素和钇的生物吸附
4. MULTITRACER STUDY ON BIOSORPTION OF VARIOUS TRACE ELEMENTS IN YEAST SACCHAROMYCES CEREVISIAE [C] . YASUHIRO NOSE, SHUICHI ENOMOTO, SHIZUKO AMBE, International conference on nuclear analytical methods in the life sciences(NAMLS) : Abstracts . 1998

机译：酵母糖酵母中各种微量元素的生物示踪的多追踪研究
5. PRECONCENTRATION OF TRACE ELEMENTS IN AQUEOUS SOLUTIONS BY OSMOSIS AND REVERSE OSMOSIS. [D] . STEC, RICHARD J., JR. 1987

机译：渗透和反渗透对水溶液中痕量元素的预富集。
6. Levels of Trace Elements in the Aqueous Humor of Cataract Patients Measured by the Inductively Coupled Plasma Optical Emission Spectrometry [O] . Joanna Dolar-Szczasny, Anna Święch, Jolanta Flieger, 2019

机译：用电感耦合等离子体发射光谱法测量白内障患者水体幽默中的微量元素水平
7. Exploiting Microbial Polysaccharides for Biosorption of Trace Elements in Aqueous Environments—Scope for Expansion via Nanomaterial Intervention [O] . Manikandan Muthu, Hui-Fen Wu, Judy Gopal, 2017

机译：利用微生物多糖在水环境中吸附微量元素 - 通过纳米材料干预扩展的范围
8. Study on Monitoring Methodology for Trace Elements in the Environment Through Chemical Analysis of Hair. Part of a Coordinated Programme on Nuclear Methods in Health-Related Monitoring of Trace Element Pollutants. Final Report, 1 [R] . Fukushima, I. 1981

机译：通过头发化学分析监测环境中微量元素的方法研究。关于微量元素污染物健康相关监测核方法的协调计划的一部分。最终报告，1

Exploiting Microbial Polysaccharides for Biosorption of Trace Elements in Aqueous Environments—Scope for Expansion via Nanomaterial Intervention

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