A label-free fluorescent peptide probe for sensitive and selective determination of copper and sulfide ions in aqueous systems

A label free fluorescent peptide probe (HDSGWEVHH) was used for Cu(2+) and S(2−) determination in aqueous solution. Our results demonstrated that HDSGWEVHH is highly selective and sensitive for monitoring free Cu(2+) concentration via quenching of the probe fluorescence upon Cu(2+) binding. The mechanism of the complexation is investigated with Cyclic Voltammetry (CV), (1)H nuclear magnetic resonance (NMR), electron paramagnetic resonance (EPR) spectroscopy and computational techniques. Theoretical calculation results indicated the binding ratio of the probe to Cu(2+) is 2 : 1 and the binding constant was obtained as 1.72 × 10 (8) M(−1). Cu(2+) concentration can be detected with the detection limit of 16 nM. Free Cu(2+) concentration released from the metallothionein–Cu complex at different pH values was detected. Cu(2+) concentration in real water and tea samples was also detected, and the results were consistent with the ones monitored by atomic absorption spectrometer. Because of the exceedingly small K(sp) value of CuS (1.27 × 10(−36)), S(2−) can sequester Cu(2+) from HDSGWEVHH to restore the tryptophan (W) fluorescence. Thus the HDSGWEVHH–Cu(2+) complex can also be used for S(2−) detection. The S(2−) concentrations can be monitored with a detection limit of 19 nM. The assay is also amenable to measurement of S(2−) concentration in pure water samples. Thus the probe designed herein is sensitive, label free, low cost, and environmentally friendly for Cu(2+) and S(2−) determination in aqueous solutions.