一种新型分级多孔碳材料的结构控制及其吸附性能

Structural control of a novel hierarchical porous carbon material and its adsorption properties.

作者信息

Cai Li-Feng, Zhan Jie-Ming, Liang Jie, Yang Lei, Yin Jie

机构信息

College of Environmental and Biological Engineering, Fujian Provincial Key Laboratory of Ecology-Toxicological Effects and Control for Emerging Contaminants, Putian University, Putian, 351100, Fujian, People's Republic of China.

Department of Materials Science, Fudan University, Shanghai, 200433, People's Republic of China.

出版信息

Sci Rep. 2022 Feb 24;12(1):3118. doi: 10.1038/s41598-022-06781-9.

DOI:10.1038/s41598-022-06781-9

PMID:35210445

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8873302/

Abstract

Novel hierarchical porous carbon materials (HPCs) were fabricated via a reactive template-induced in situ hypercrosslinking procedure. The effects of carbonization conditions on the microstructure and morphology of HPCs were investigated, and the adsorption of methylene blue (MB) on HPCs was explored. The as-prepared HPCs has a hierarchical micro-, meso- and macropore structure, which results from the overlap of hollow nanospheres possessing microporous shells and macroporous cavities. The carbonization temperature, carbonization time and carbonization heating rate played important roles in tailoring the nanostructures of HPCs. The BET specific surface area and micropore specific surface area can reach 2388 m g and 1892 m g, respectively. Benefitting from the well-developed pore structure, the MB removal efficiency can exceed 99% under optimized conditions. The adsorption kinetics and thermodynamics can be well described by a pseudo-second-order model and Langmuir model, respectively. Furthermore, such adsorption was characterized by a spontaneous endothermic process.

摘要

通过反应模板诱导原位超交联法制备了新型分级多孔碳材料（HPCs）。研究了碳化条件对HPCs微观结构和形貌的影响，并探讨了HPCs对亚甲基蓝（MB）的吸附性能。所制备的HPCs具有分级的微孔、介孔和大孔结构，这是由具有微孔壳和大孔腔的中空纳米球重叠形成的。碳化温度、碳化时间和碳化升温速率在调控HPCs的纳米结构方面发挥着重要作用。BET比表面积和微孔比表面积分别可达2388 m²/g和1892 m²/g。得益于发达的孔结构，在优化条件下，MB去除效率可超过99%。吸附动力学和热力学分别可用准二级模型和朗缪尔模型很好地描述。此外，这种吸附表现为自发吸热过程。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/34e3/8873302/71cd8943ffb4/41598_2022_6781_Fig1_HTML.jpg

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一种新型分级多孔碳材料的结构控制及其吸附性能

Structural control of a novel hierarchical porous carbon material and its adsorption properties.

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