Ultrasound-Assisted Synthesis of Luminescent Micro- and Nanocrystalline Eu-Based MOFs as Luminescent Probes for Heavy Metal Ions.
Stefaniia S KolesnikViktor G NosovIlya E KolesnikovEvgenia M KhairullinaIlya I TumkinAleksandra A VidyakinaAlevtina A SysoevaMikhail N RyazantsevMaxim S PanovVasiliy D KhripunNikita A BogachevMikhail Yu SkripkinAndrey S MereshchenkoPublished in: Nanomaterials (Basel, Switzerland) (2021)
The luminescent coarse-, micro- and nanocrystalline europium(III) terephthalate tetrahydrate (Eu2bdc3·4H2O) metal-organic frameworks were synthesized by the ultrasound-assisted wet-chemical method. Electron micrographs show that the europium(III) terephthalate microparticles are 7 μm long leaf-like plates. According to the dynamic light scattering technique, the average size of the Eu2bdc3·4H2O nanoparticles is equal to about 8 ± 2 nm. Thereby, the reported Eu2bdc3·4H2O nanoparticles are the smallest nanosized rare-earth-based MOF crystals, to the best of our knowledge. The synthesized materials demonstrate red emission due to the 5D0-7FJ transitions of Eu3+ upon 250 nm excitation into 1ππ* state of the terephthalate ion. Size reduction results in broadened emission bands, an increase in the non-radiative rate constants and a decrease in both the quantum efficiency of the 5D0 level and Eu3+ and the luminescence quantum yields. Cu2+, Cr3+, and Fe3+ ions efficiently and selectively quench the luminescence of nanocrystalline europium(III) terephthalate, which makes it a prospective material for luminescent probes to monitor these ions in waste and drinking water.
Keyphrases
- metal organic framework
- quantum dots
- energy transfer
- drinking water
- heavy metals
- molecular dynamics
- sensitive detection
- small molecule
- health risk
- healthcare
- health risk assessment
- photodynamic therapy
- aqueous solution
- living cells
- light emitting
- fluorescence imaging
- molecular dynamics simulations
- water soluble
- oxide nanoparticles
- fluorescent probe