Hydrothermal Synthesis of Highly Effective Carbon Sorbent Based on Renewable Resources

IF 0.3 Q4 CRYSTALLOGRAPHY

Liquid Crystals and their Application Pub Date : 2023-09-29 DOI:10.18083/lcappl.2023.3.54

A. E. Burakov, T. S. Kuznetsova, I. V. Burakova, O. A. Ananyeva, E. S. Mkrtchyan, T. P. Dyachkova, A. G. Tkachev

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引用次数: 0

Abstract

The synthesis of new sorption materials by hydrothermal carbonization of sunflower meal (HTS) with the addition of graphene oxide (GO) and subsequent carbonization (C) was developed. To assess the morphological and phase changes during carbonization, the materials were characterized by scanning electron microscopy and IR spectroscopy. According to the results obtained, carbonization promoted the development of latent porosity, as well as a decrease in the amount of oxygen-containing and alkyl groups. Kinetic sorption studies were also carried out on the example of the Pb+2 ions and organic dye molecules – methylene blue (MB), extraction. The experiment results showed that the adsorption capacity of HTS, HTS/C, HTS/GO, and HTS/GO/C composites for the Pb+2 ions extraction was 82.9; 108.6; 168.9; 148.3 mg/g, respectively; and for MB molecules – 1481.8; 1601.1; 1920.3; 2283 mg/g, respectively. It was found that during adsorption of MB molecules, the carbonization effects significantly on the contact time. Carbonized samples show high sorption activity. The equilibrium contact time fort them was 15 min, while for non-carbonized samples it was 60 min. The equilibrium time during the Pb+2 ions adsorption was 60 min for all samples. The adsorption kinetics was described using the following models: pseudo-first order, pseudo-second order, the Elovich model, and intraparticle diffusion. It was found that the adsorption process is limited by the chemical exchange reaction and proceeds in a mixed-diffusion mode.

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基于可再生资源的高效碳吸附剂的水热合成

研究了以葵花籽粕为原料，加入氧化石墨烯(GO)并进行后续碳化(C)的水热碳化法制备新型吸附材料。利用扫描电子显微镜和红外光谱对炭化过程中材料的形貌和物相变化进行了表征。结果表明，碳化作用促进了潜孔的发育，并降低了含氧基团和烷基的数量。以Pb+2离子与有机染料分子-亚甲基蓝(MB)的萃取为例，进行了动力学吸附研究。实验结果表明，HTS、HTS/C、HTS/GO和HTS/GO/C复合材料对Pb+2离子的吸附量为82.9;108.6;168.9;分别为148.3 mg/g;MB分子- 1481.8;1601.1;1920.3;分别为2283 mg/g。结果表明，在吸附过程中，炭化对接触时间有显著影响。碳化后的样品具有较高的吸附活性。它们的平衡接触时间为15 min，未碳化样品的平衡接触时间为60 min。所有样品在Pb+2离子吸附过程中的平衡时间均为60 min。采用拟一阶、拟二阶、Elovich模型和颗粒内扩散模型描述了吸附动力学。发现吸附过程受化学交换反应的限制，以混合扩散方式进行。

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来源期刊

Liquid Crystals and their Application CRYSTALLOGRAPHY-

CiteScore

1.30

自引率

40.00%

发文量

期刊介绍： The Journal presents the following main directions of creation/construction, study and application of self-assembled materials: SYNTHESIS, STRUCTURE, PROPERTIES, MEDICINE, BIOLOGY, NANOTECHNOLOGY, SENSORS, PRACTICAL APPLICATION and INFORMATION. The journal is addressed to researchers, lecturers, university students, engineers. The publisher of the journal is the Nanomaterials Research Institute of "Ivanovo State University".