Chemosensors play important parts in the selective recognition of ions, which is widely applied in various fields of environment, industry and biological sciences. In this work, a chemosensor for multi-metal ions based on rhodamine B derivative was synthesized, which could selectively recognize various metal ions in different solvent system. The addition of Cu2+ caused the color change from colorless to pink in EtOH/H2O (v/v=1:1) solvent system, which could be quickly identified by the naked eyes with a detection limit of 8.27×10-8M. In ethanol solution system, the addition of Fe3+ and Zn2+ caused different fluorescence changes with the detection limit of 2.12×10-7M and 6.64×10-7M respectively. The binding ratios are 1:1 (1-Cu2+), 2:1 (1-Fe3+) and 1:1 (1-Zn2+), respectively. Meanwhile, the probe 1 was used to detect the trace metal ions in real water samples. Besides, the probe 1 showed sensitive fluorescence signals for Fe3+ in biological cells. The experimental results further verify the application value of the sensor.
Keywords: Chemosensor; Colorimetry; Fluorometric; Metal ions; Rhodamine B.
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