Emissive luminescent, redox-active Ru(II) bischlorido(triphenylphosphine) complexes containing functionalized imidazole tethered thiourea and dithiocarbamate: characterization and preliminary anticancer quantum chemical calculations
Adeloye A.O. Ajibade P.A. Babatunde D.D. Magwa N.
15 December 2025Elsevier B.V.
Journal of Molecular Structure
2025#1347
The current paper reports the experimental, photophysical, electrochemical characterization and a preliminary quantum chemical studies evaluation of anti-cancer potential of two mixed-ligand heteroleptic ruthenium(II) complexes containing monodentate 4-imidazoleacrylic acid and bischlorido(triphenylphosphine) tethered with either thiourea or dithiocarbamate moiety obtained in a one-pot reaction synthesis. The complexes formulated as [RuCl2(PPh3)(dtu)(mza) (OH)]: (Y1) and [RuCl2(PPh3)(pex)(mza)]: (ZD2), with (dtu = thiourea, mza = 4-imidazole acrylic acid and pex = dithiocarbamate) were characterized by elemental analysis, FT-IR, UV–Vis, PL, 1H, 13C, 31P NMR and MS. The photophysical properties of the two complexes showed appreciable absorption bands at the UV–Vis absorption region wavelengths λmax at (284, 373 nm) and weak absorption maxima at 508 and 638 nm indicative of the presence of π→π*, LLCT and MLTC charge transitions. High intensive photoluminescent emission bands are recorded for both complexes Y1 and ZD2 at λem 554 and 590 nm respectively, although with Y1 having better luminescent quantum yield (0.71) than ZD2 (0.36) at a common excitation energy. A rapid electrochemical screening study using cyclic voltammogram supported by square-wave voltammogram revealed stronger redox activity negative potential (V) for ZD2 than Y1. Despite the close similarity in chemical structures of the two complexes, the molecular docking/DFT reports showed strong inhibitory constants and binding affinities of complexes Y1 and ZD2 against ERα+ (8DU6) and hFR-β (4KMZ) at –160.749; –142.242 and –144.164; –157.592 respectively when compared to Abemaciclib, being the standard drug at –148.104; –181.067. This work provides firsthand preliminary information on target opportunities aimed at finding new potential bioactive agents with better photostability and high selectivity that could be employed for bioimaging, optical biosensors and/or other emerging applications based on thiourea, dithiocarbamate and 4-imidazoleacrylic acid moieties.
4-Imidazoleacrylic acid , Emissive quantum yield , Molecular docking , Redox active , RuCl2(PPh3)3 , Structure-activity relationships , Thiourea/dithiocarbamate
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Department of Chemistry, College of Science, Engineering and Technology, University of South Africa, Florida Rooderpoort 1709, Johannesburg, South Africa
Department of Analytical, Colloid Chemistry and Technology of Rare Elements, Al-Farabi Kazakh National University, 71 Al-Farabi Avenues, 050040 Almaty, Kazakhstan
Department of Chemistry and Physics, University of KwaZulu-Natal, Westville Campus Private Bag X54001, Pietermaritzburg, South Africa
Department of Chemistry
Department of Analytical
Department of Chemistry and Physics
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