| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1493179 | Optical Materials | 2016 | 5 Pages |
•The pH sensor offers a very wide working range in water.•The emission changes demonstrated multiple colors.•Lanthanide long-lived excited state lifetimes has been used.•Cu2+ and Fe3+ selective sensing were realized.
A new type of Eu(III)-gatifloxacin complex with characteristic red luminescence has been prepared. Due to the presence of ionization effect linked to the organic chromophore, the molecular fluorescent sensor demonstrated variable pH-sensitive absorption and emission curves. The red emission derived from europium ions was strong during pH range 8–10. Between pH = 7 and 4, the europium emission remained relatively stable and fluorescence signals of gatifloxacin has been improved substantially. Under acidic conditions (pH = 1 to 3), the dramatic changes in the emission colors (from red, yellow to green) were clearly observed. Moreover, the excitation wavelength can be extended into the visible light range (Ex = 411 nm) by using the concentration effect experiment. Importantly, it gave turn-off emissions in the presence of Cu2+ or Fe3+ and the detection limits were determined to be 6.5 μM for Cu2+ and 6.2 μM for Fe3+ respectively.
