Advanced Sensor and Energy Materials (Dec 2024)

Redox-active sp2-c connected metal covalent organic frameworks for selective detection and reductive separation of uranium

  • Jin-Lan Liu,
  • Zhi-Hai Peng,
  • Jia-Xin Qi,
  • Cheng-Rong Zhang,
  • Zhen-Wen Zhang,
  • Li Zhang,
  • Ru-Ping Liang,
  • Jian-Ding Qiu

Journal volume & issue
Vol. 3, no. 4
p. 100124

Abstract

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It is economically desirable to develop a material that can simultaneously detect and recover uranium. Herein, a CC-bridged two-dimensional metal-covalent organic framework (Cu-BTAN-AO MCOF) was constructed by condensation of metal single crystals with a rigid structure (Cu3(PyCA)3) and cyano monomers (BTAN) via Knoevenagel reaction for simultaneous detection and adsorption of uranium. The amidoxime group within the pore and the presence of unsaturated Cu(I) in the framework facilitate the adsorption of uranyl ions onto the amidoxime group, leading to fluorescence quenching via the photoinduced electron transfer (PET) mechanism, achieving a detection limit of as low as 167 nM uranyl ions. Furthermore, Cu-BTAN-AO demonstrates exceptional efficiency in capturing uranium from wastewater characterized by rapid kinetics and superior selectivity. It is noteworthy that Cu-BTAN-AO is the first example of simultaneous detection, adsorption and chemical reduction of uranium using metal centers and functional groups in MCOF, indicating that Cu-BTAN-AO has great potential for the detection and recovery of uranium-containing wastewater. This design strategy may also be applicable to advancing sensing and energy materials for other important metal ions.

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