吸附
亚甲蓝
阳离子聚合
化学
化学工程
碱金属
无机化学
有机质
油页岩
刚果红
核化学
有机化学
光催化
废物管理
催化作用
工程类
作者
Feng Zhao,Yuan Zhang,Xiaoying Zhang,Long Zhao,Fengfeng Fu,Bin Mu,Aiqin Wang
标识
DOI:10.1016/j.jcis.2022.06.100
摘要
Solid waste oil shale semi-coke (SC) is considered as a potential material for the preparation of adsorbents due to its rich organic and inorganic components. However, the dense structure and the complex form of the components present make it unsatisfactory for adsorption. In this study, using Alkali corrosion under hydrothermal condition, SC was prepared as an adsorbent material PSSC with excellent adsorption performance for both anionic and cationic dyes. The related characterization analysis showed that most of the organic matter and silicates of SC reacted with inorganic matter to form silicon carbide. The specific surface area of PSSC increased significantly (from 7.47 m2/g to 1353.99 m2/g) leading to the maximum adsorption of PSSC on Methylene blue (MB) and Congo red (CR) reached at 974.66 mg/g and 562.41 mg/g, respectively, which far exceeded the adsorption of SC on both dyes. Finally, the adsorption mechanisms were revealed from the structural and energetic perspectives. The results showed that the modification process increased the type and number of adsorption sites, and that these adsorption sites exhibited different capturing abilities for the two dyes with the change of contact temperature.
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