| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 750707 | Sensors and Actuators B: Chemical | 2015 | 7 Pages |
•A colorimetric sensor for Fe3+ and Al3+ with solvent-dependent binding modes.•The sensor shows dual responses of naked-eye-visible color and turn-on fluorescence.•The sensor has high absorbance sensitivity and fluorescence sensitivity.•The sensor shows a naked-eye recognition to metal ions and carbonate.
A novel bis-rhodamine derivative BRU was designed and synthesized in a simple way. In aqueous media, BRU could efficiently recognize Fe3+ and Al3+ among other metal ions with different color appearances through a turn-on colorimetric response. In the presence of Fe3+ or Al3+, BRU solution also displayed enhanced fluorescent emission. According to the detection limit, BRU had high recognition sensitivity towards Fe3+ and Al3+ based on either colorimetric absorbance or fluorescent emission. Interestingly, BRU bound to Fe3+ or Al3+ with a simple 1:1 mode in CH3OH and a 1:2 mode in CH3OH/H2O, displaying solvent-dependent binding property. In addition, the in situ generated BRU-Fe3+ and BRU-Al3+ complex exhibited fluorescence turn-off and color disappearance towards carbonate among other anions. These provide a potential application in sequential detection of Fe3+, Al3+ and carbonate with naked-eyes.
Graphical abstractA new colorimetric sensor based on bis-rhodamine derivative has been designed and synthesized for the naked-eye-visible recognition of Fe3+ and Al3+, whose in situ formed complex can be used to detect carbonate in aqueous media.Figure optionsDownload full-size imageDownload as PowerPoint slide
