- Prof. Dr. Yingbo Chen
- Tiangong University
- Welcome to bocy.polymer.cn
- Visits:478080
- Tiangong University
- Ei文摘庫(kù)
- SCI科學(xué)引文索引擴(kuò)展版
- m.jrdgc.com
- www.rheology.cn
- www.chemshow.cn
- www.chembbs.com.cn
- Address:天津市西青區(qū)賓水西道399號(hào)天津工業(yè)大學(xué)材料科學(xué)與工程學(xué)院
- Zip:300387
- Tel:022-8395-5357
- Fax:
- Email:chenyingbo@tiangong.edu.cn
keywords:U(VI) adsorption ,MXene ,Mixed matrix membrane
source:期刊
specific source:Separation and Purification Technology 309 (2023) 123024
Issue time:2023年
Two-dimensional metal carbides (MXene) and amidoxime-based materials have attracted more and more attention in heavy metal adsorption. Herein, we prepared a mixed matrix membrane of amidoximized poly-acrylonitrile with MXene particles by a simple phase separation method (M/PAO mixed matrix membrane). The M/PAO mixed matrix membrane had excellent U(VI) ion selectivity compared to vanadium. Under the syner-gistic adsorption of the two functional adsorption units, the maximum adsorption capacity can reach 10.31 g/m2
(364.46 mg/g) at pH = 6, while the adsorption capacity of U(VI) can reach 37.49 mg/m2 (1.3225 mg/g) in a seven-day natural seawater experiment, which was far more than that of single amidoxime-based adsorbent. Pseudo-second-order kinetics and Langmuir adsorption model were used to study the adsorption behavior. The results of various characterization methods showed the complexation mechanism between the M/PAO mixed matrix membrane and U(VI) ions. Considering its excellent adsorption capacity and facile preparation process,
we believe that the M/PAO mixed matrix membrane is one of the most promising candidates for large-scale U(VI) extraction from seawater.