结合生物和化学方法从玉米秸秆中拆解纤维素以制备具有增强吸附性能的多孔碳。

Combining biological and chemical methods to disassemble of cellulose from corn straw for the preparation of porous carbons with enhanced adsorption performance.

作者信息

Jin Yiping, Zhang Bolun, Chen Guang, Chen Huan, Tang Shanshan

机构信息

College of Life Sciences, Jilin Agricultural University, Changchun 130118, China; The Key Laboratory of Straw Biology and Utilization, The Ministry of Education, Jilin Agricultural University, Changchun 130118, China.

出版信息

Int J Biol Macromol. 2022 Jun 1;209(Pt A):315-329. doi: 10.1016/j.ijbiomac.2022.04.033. Epub 2022 Apr 8.

DOI:10.1016/j.ijbiomac.2022.04.033

PMID:35405151

Abstract

In this study, we used a combination of chemical and biological pretreatment methods to extract cellulose from corn straw with a relative content of 92.40%. The adsorption performance and mechanism of the prepared porous carbon were investigated using synthetic dye malachite green (MG) and antibiotic tetracycline hydrochloride (TC) as adsorption models. The kinetic studies suggested that the adsorption followed the pseudo-second-order model and Bangham model. The Freundlich isotherm model fitted the adsorption data best for both MG and TC. The thermodynamic studies showed that the adsorption of MG and TC by adsorbents were spontaneous and endothermic in nature. In addition, the adsorption performance was maintained at 50% of the original value after five cycles. More importantly, this method not only improved the adsorption performance of prepared porous carbon materials but also provides a reference for the application of other lignocellulosic materials for cellulose extraction.

摘要

在本研究中，我们采用化学和生物预处理方法相结合的方式，从相对含量为92.40%的玉米秸秆中提取纤维素。以合成染料孔雀石绿（MG）和抗生素盐酸四环素（TC）作为吸附模型，研究了制备的多孔碳的吸附性能及机理。动力学研究表明，吸附遵循准二级模型和班汉姆模型。Freundlich等温线模型对MG和TC的吸附数据拟合效果最佳。热力学研究表明，吸附剂对MG和TC的吸附在本质上是自发的且吸热的。此外，经过五个循环后，吸附性能保持在原始值的50%。更重要的是，该方法不仅提高了制备的多孔碳材料的吸附性能，还为其他木质纤维素材料用于纤维素提取的应用提供了参考。

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结合生物和化学方法从玉米秸秆中拆解纤维素以制备具有增强吸附性能的多孔碳。

Combining biological and chemical methods to disassemble of cellulose from corn straw for the preparation of porous carbons with enhanced adsorption performance.

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