Highly-fluorescent extracts from Pterocarpus wood for Fe3+ ion detection.

At present, excessive Fe3+ in daily water has become a threat to human health. Among the conventional detection methods for Fe3+, fluorescent probes have been applied on a large scale due to their simplicity and efficiency. However, the currently available fluorescent probes are difficult to synthesize, costly and environmentally unfriendly, limiting their applications. In this work, a fluorescent extract of Pterocarpus wood was successfully obtained, and the structure of some coumarin-based molecules in this extract was determined by 2D-NMR. Subsequently, the intensity of this fluorescence was optimized using response surface methodology (RSM), resulting in a high-intensity fluorescent probe. The probe was sensitive to the concentrations of Fe3+ and MnO 4 −, and could efficiently detects Fe3+ in the range of 2.7 μM–8.0 μM, with LOD and LOQ reaching 1.06 μM and 3.20 μM, respectively. Moreover, based on the strong complexation property of EDTA on Fe3+, this work designed the "switch-on" fluorescent probes. The experiment shows that both static and dynamic quenching exist in this system. The mechanism of complexation and oxidation of fluorescent molecules by the quencher is interpreted in the quenching reaction. In addition, the fluorescent probe has a high yield and low cost, it also performs well in actual water sample tests. This method is expected to be developed as a new way on Fe3+ detection. [Display omitted] • The first application of Pterocarpus wood extract fluorescence, the first use of hybrid system fluorescence on ion detection. • This work provides a paradigm for the subsequent application of fluorescence in various wood extracts on ion detection. • The fluorescent probe is very simple and inexpensive to prepare, and the raw materials are environmentally friendly. • The structure of some of fluorescent molecules was determined, and the intensity of fluorescence was optimized. • 1. This fluorescent probe can detect Fe3+ efficiently and rapidly, it has good environmental adaptability. [ABSTRACT FROM AUTHOR]