A Pyridyl-Benzimidazole Based Ruthenium(II) Complex as Optical Sensor: Targeted Cyanide Detection and Live Cell Imaging Applications

Abstract

The extreme toxicity of cyanide (CN-) ions in diverse environmental media has garnered significant attention toward the design of well-organized molecular probes for their selective and sensitive detection. In this context, we present a monometallic Ru(II) complex (Ru-1), based on the 2-(pyridin-2-yl)-1H-benzo[d]imidazole moiety, acting as a highly selective luminescent probe for CN- recognition in pure water. Additionally, Ru-1 also functions as an efficient sensor for F-, AcO-, and H2PO4- ions, along with CN-, when acetonitrile is used as the solvent system. The binding constant (Kb) and detection limit (LoD) for CN- were determined to be 3.05 × 106~M-1 and 12.8~nM, respectively, in water. The close proximity of the N--H site to the Ru(II) center, along with its notable acidity, were identified as the primary factors responsible for the high selectivity of Ru-1 toward CN- in aqueous media. Job's plots and density functional theory (DFT) analyses were conducted to support the anion binding mechanism. Furthermore, time-resolved fluorescence (TRF) spectroscopy was employed to evaluate the CN--induced emission lifetime change of Ru-1 in water. To explore practical applicability, the Ru-1 probe was developed into paper-based strips capable of detecting CN- ions in the millimolar range via the naked eye under 365~nm UV illumination. It was also effectively applied for the detection of CN- in human breast cancer MCF-7 cell lines and natural food sources, such as apple seeds and sprouting potatoes.