posted on 2023-03-15, 19:08authored byHaiyue Peng, Bo Jiang, Feize Li, Junyuan Gong, Yingdan Zhang, Meng Yang, Ning Liu, Lijian Ma
99TcO4– with
radioactive
toxicity and high mobility is a potential radiation threat to the
environment and organisms. Effective separation and fixation of 99TcO4– from nuclear waste are
of paramount importance. Herein, we proposed a pre-evaluation strategy
supported by single-crystal structures to prepare two kinds of cationic
covalent organic polymers (COPs) with self-adaptive effects to remove 99TcO4–/ReO4– from aqueous solution. The as-prepared COPs showed rapid adsorption
kinetics, large adsorption capacity, and good selectivity to ReO4–. Their application to radioactive 99TcO4– also exhibited high separation
efficiency, with a removal rate of 97% within only 30 s. Studies on
the adsorption mechanism based on single-crystal X-ray analysis, DFT
calculation, and so forth confirmed that the host–guest structure–activity
relationship derived from single crystals directly guides the structures
and properties of the materials. This work provides a new approach
for the controllable design of the source molecular crystal structure
of complex structural materials to lead to excellent properties.