In this work,we show a highly rare phosphorylated polymer,ECUT-POP-3P,which is prepared in a convenient manner through soaking ECUT-POP-3 in phosphoric acid via protonation and hydrogen bonding interactions.ECUT-POP-3...In this work,we show a highly rare phosphorylated polymer,ECUT-POP-3P,which is prepared in a convenient manner through soaking ECUT-POP-3 in phosphoric acid via protonation and hydrogen bonding interactions.ECUT-POP-3P is found to enable ultrafast adsorption kinetics down to four minutes and exhibits an ultrahigh uranyl uptake capacity of up to 1.66 g g^(−1),indicating its superior applicability in the extraction of uranium.展开更多
基金supported financially by the National Natural Science Foundation of China(22376024)the Youth Leading Talent Project of FuZhou(no.2020ED64)+1 种基金the Jiangxi Project(DHSQT22021007)The authors would also like to thank Wenqian Liu from Shiyanjia Lab(https://www.Shiyanjia.com)for the XRD and SEM analyses.
文摘In this work,we show a highly rare phosphorylated polymer,ECUT-POP-3P,which is prepared in a convenient manner through soaking ECUT-POP-3 in phosphoric acid via protonation and hydrogen bonding interactions.ECUT-POP-3P is found to enable ultrafast adsorption kinetics down to four minutes and exhibits an ultrahigh uranyl uptake capacity of up to 1.66 g g^(−1),indicating its superior applicability in the extraction of uranium.
