Abstract
Graphene oxide–rhodamine B hydrazide (GO-RhB) nanocomposite was prepared by a simple chemical method and characterized by various spectroscopic and analytical techniques. GO-RhB nanocomposite potentially detects Cr
3+
ion (excitation/emission = 550 nm/572 nm) via fluorescence turn “on–off” approach. This composite showed high binding affinity (10
6
M
−1
) with Cr
3+
and a+ limit of detection (LOD) down to picomolar concentration (LOD = 85.6 pM). As far as we know, this is the first report for the sensing of Cr
3+
ion at picomolar concentration. GO-RhB selectively senses Cr
3+
ion without any interference of other coexisting metal ions. In addition, this composite exhibited the dynamic nature of quenching in the presence of Cr
3+
ion, which is confirmed by the Stern–Volmer plot, fluorescence temperature profiles, and decay time experiments. The GO-RhB nanocomposite-based fluorescent probe was successfully applied to the quantitative detection of Cr
3+
ion in milk sample (linear range = 2 to 10 nM) with better performance than other existing methods. Besides, this GO-RhB composite showed better antibiofilm activity against
Acinetobacter baumannii
and methicillin-resistant
Staphylococcus aureus
(MRSA) by using the Congo red agar and tube method.
Graphical abstract