Natural porous wood decorated with ZIF-8 for high efficient iodine capture

Effective removal of radioactive iodine from nuclear exhaust has been a concern of researchers. Due to its high surface area and porosity, the metal organic frameworks (MOFs) make good prospects. However, one of the reasons for limiting the widespread use of MOFs materials is that these materials ar...

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Bibliographic Details
Published in:Materials chemistry and physics 2021-01, Vol.258, p.123964, Article 123964
Main Authors: Wang, Zhuang, He, Yi, Zhu, Lin, Zhang, Ling, Liu, Bo, Zhang, Youkui, Duan, Tao
Format: Article
Language:English
Subjects:
Adsorption
Cost-effectiveness
Iodine
Iodine capture
Low cost
Metal-organic frameworks
Porosity
Scalability
Structural stability
Wood
ZIF-8@wood
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Summary:Effective removal of radioactive iodine from nuclear exhaust has been a concern of researchers. Due to its high surface area and porosity, the metal organic frameworks (MOFs) make good prospects. However, one of the reasons for limiting the widespread use of MOFs materials is that these materials are difficult to recycle and easy to settle to the bottom during the adsorption process. It can affect the adsorption capacity and adsorption kinetic time. There is still a lack of scalable and low-cost adsorption materials for removal of Iodine vapor. Utilizing the dense porous structure and high stability of natural wood (basswood), ZIF-8 can be successfully loaded into wood in a simple way (ZIF-8@wood). The vertical channel structure in the wood can provide a good space for the circulation of gas. This method can increase the adsorption contact area. The experimental data show that the adsorption capacity of ZIF-8@wood in iodine vapor can reach to 1.09 g/g. Compared with ZIF-8, ZIF-8@wood not only improves the adsorption capacity by 27%, but also shortens the adsorption kinetic time by 25%. In addition, it can prevent to settle and aggregate. The low-cost ZIF-8@wood allows for scalable preparation. Currently, ZIF-8 embedded wood is exceedingly promising for practical applications to remove iodine vapors efficiently and economically. •The vertical channel structure in the wood can provide a good space for the circulation of nuclear waste gas.•ZIF-8@wood have higher adsorption capacity and shorter kinetic time than ZIF-8.•ZIF-8@wood is readily collected and difficult to aggregate.•This material can be prepared on a large scale and has realistic application.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2020.123964