Unveiling the Uncommon Fluorescent Recognition Mechanism towards Pertechnetate Using a Cationic Metal–Organic Framework Bearing N‐Heterocyclic AIE Molecules
Kang Kang, Xing Dai, Nan‐Nan Shen, Rongzhen Xie, Xingwang Zhang, Lecheng Lei, Shuao Wang, Chengliang Xiao
Abstract
Abstract As one of most problematic radionuclides, technetium‐99, mainly in the form of anionic pertechnetate (TcO 4 − ), exhibits high environmental mobility, long half‐life, and radioactive hazard. Due to low charge density and high hydrophobicity for this tetrahedral anion, it is extremely difficult to recognize it in water. Seeking efficient and selective recognition method for TcO 4 − is still a big challenge. Herein, a new water‐stable cationic metal‐organic framework (ZJU‐X8) was reported, bearing tetraphenylethylene pyrimidine‐based aggregation‐induced emission (AIE) ligands and attainable silver sites for TcO 4 − detection. ZJU‐X8 underwent an obvious spectroscopic change from brilliant blue to flavovirens and exhibited splendid selectivity towards TcO 4 − . This uncommon fluorescent recognition mechanism was well elucidated by batch sorption experiments and DFT calculations. It was found that only TcO 4 − could enter into the body of ZJU‐X8 through anion exchange whereas other competing anions were excluded outside. Subsequently, after interaction between TcO 4 − and silver ions, the electron polarizations from pyrimidine rings to Ag + cations significantly lowered the energy level of the π* orbital and thus reduced the π–π* energy gap, resulting in a red‐shift in the fluorescent spectra.