Computational Prediction of Estrogenic Micropollutants Removal from Lignin Surface Using Ionic Liquids

Q3 Biochemistry, Genetics and Molecular Biology

Journal of Applied Biotechnology Reports Pub Date : 2019-09-01 DOI:10.29252/JABR.06.03.08

R. Hafizi, M. Amani, R. Taheri

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Abstract

Introduction: Estrogens are of the most dangerous micro/nanopollutants that have shown severe influences on the ecosystems and micro-organisms. There is an ever-increasing demand to reliably detect and practically remove these estrogens from effluents. In a recently proposed method, estrogens can be detected and removed from effluents using a sampler (lignin). In this study it has been shown that ionic liquids are a potential choice to separate the adsorbed estrogens from the surface of “dirty” lignin so that the sampler could be reused. Materials and Methods: More than 300 ionic liquids were screened for removing estrogens from the lignin surface by employing a quantum chemistry method, COnductor-like Screening MOdel (COSMO), to determine the interaction quality between the ionic liquid and eight estrogens of interest. Results: The results revealed that there are at least 24 solvents that can remove adsorbed estrogens from the surface of lignin. Conclusions: This prediction completes the cycle of reusing lignin as an efficient polymeric sampler to remove estrogens from effluents and provokes experimental justifications.

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离子液体去除木质素表面雌激素微污染物的计算预测

引言：雌激素是最危险的微/纳米污染物，对生态系统和微生物产生了严重影响。越来越多的人需要可靠地检测并实际去除废水中的这些雌激素。在最近提出的一种方法中，可以使用采样器（木质素）检测并从废水中去除雌激素。在这项研究中，离子液体是一种潜在的选择，可以将吸附的雌激素从“脏”木质素表面分离出来，这样采样器就可以重复使用。材料和方法：采用量子化学方法，即类导体筛选模型（COSMO），筛选了300多种离子液体从木质素表面去除雌激素，以确定离子液体与八种感兴趣的雌激素之间的相互作用质量。结果：至少有24种溶剂可以去除木质素表面吸附的雌激素。结论：这一预测完成了木质素作为一种有效的聚合物采样器从废水中去除雌激素的循环，并提出了实验依据。

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

Journal of Applied Biotechnology Reports Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

1.90

自引率

0.00%

发文量

期刊介绍： The Journal of Applied Biotechnology Reports (JABR) publishes papers describing experimental work relating to all fundamental issues of biotechnology including: Cell Biology, Genetics, Microbiology, Immunology, Molecular Biology, Biochemistry, Embryology, Immunogenetics, Cell and Tissue Culture, Molecular Ecology, Genetic Engineering and Biological Engineering, Bioremediation and Biodegradation, Bioinformatics, Biotechnology Regulations, Pharmacogenomics, Gene Therapy, Plant, Animal, Microbial and Environmental Biotechnology, Nanobiotechnology, Medical Biotechnology, Biosafety, Biosecurity, Bioenergy, Biomass, Biomaterials and Biobased Chemicals and Enzymes. Journal of Applied Biotechnology Reports promotes a special emphasis on: -Improvement methods in biotechnology -Optimization process for high production in fermentor systems -Protein and enzyme engineering -Antibody engineering and monoclonal antibody -Molecular farming -Bioremediation -Immobilizing methods -biocatalysis