Collaborative Construction of a Silver Nanocluster Fluorescent Probe Using the Pyridinium-Based Ionic Liquid [C₄py][DCA]

Abstract: A silver nanocluster fluorescent probe was synthesized by using the pyridinium-based ionic liquid [C 4 py][DCA] as the protective agent, AgNO 3 as the precursor, and NaBH 4 as the reducing agent. The presence of pyridine group enhanced the fluorescence intensity of Ag nanoclusters and facilitated the coordination interaction between Ag nanoclusters and AsO 3 3– . Therefore, the collaborative construction of… Show more

“… 120 Wang et al prepared a fluorescent probe AgNC which was collaboratively composed of pyridinium-based ionic liquid. 121 The original fluorescence could be quenched by the coordination bond between AsO 3 3− and π molecular orbitals. With the addition of H 2 O 2 , AsO 3 3− could be oxidized to AsO 4 3− and the origin fluorescence would recover.…”

“…121 ndings on H 2 O 2 -related diseases and H2 O 2 -responsive nanomaterials, and to advance the eld of H 2 O 2 -related biomedicine. These strategies and studies allow for better understanding of the functions and mechanisms of H 2 O 2responsive nanomaterials and also open up more possibilities for other biomedical application scenarios.…”

Recent theranostic applications of hydrogen peroxide-responsive nanomaterials for multiple diseases

“… 120 Wang et al prepared a fluorescent probe AgNC which was collaboratively composed of pyridinium-based ionic liquid. 121 The original fluorescence could be quenched by the coordination bond between AsO 3 3− and π molecular orbitals. With the addition of H 2 O 2 , AsO 3 3− could be oxidized to AsO 4 3− and the origin fluorescence would recover.…”

“…121 ndings on H 2 O 2 -related diseases and H2 O 2 -responsive nanomaterials, and to advance the eld of H 2 O 2 -related biomedicine. These strategies and studies allow for better understanding of the functions and mechanisms of H 2 O 2responsive nanomaterials and also open up more possibilities for other biomedical application scenarios.…”

Recent theranostic applications of hydrogen peroxide-responsive nanomaterials for multiple diseases

Recyclable high-stability As (III) absorbent from SiO2 immobilized by ionic liquid [C4py][DCA]

High-affinity fluoride ions absorbent from TiO2-based ionic liquid pyridinium propylsulfonate