TiO2 nanotubes as an efficient green catalyst for the multi-component synthesis of blue light emissive pyrazolyl-thaizole based fluorophores

TiO₂ nanotubes (TNTs) are employed as a green heterogeneous catalyst for the synthesis of solid-state blue light emissive pyrazolyl-thiazoles (PZTZs) (4) via the three-component reaction of β-enaminones (1), thiosemicarbazide (2) and α-bromoketones (3) in ethanol and water (2:1). TNTs were prepared by hydrothermal method and characterized by XRD, UV-Vis DRS, photoluminescence (PL), HRTEM and EDAX techniques. Construction of three C–N and one C-S bonds in a single-step, nature-friendly reaction profile, large substrate scope, use of non-hazardous solvents, excellent yields (91–98 %) in short reaction times, gram scale feasibility and formation of pure products without the help of column purification are the attractive features of the present multi-component reaction (MCR) strategy. In addition, the catalytic medium displayed excellent efficiency towards diversified β-enaminones (1) and α-bromoketones (3); the recovered TNTs catalyst is used 7 times. Photophysical and electrochemical properties of PZTZs (4) have been investigated. The synthesized PZTZs (4) showed tunable photophysical and electrochemical properties by varying the substituents on both thiazole and pyrazole rings. Hence, the PZTZs (4) are promising materials for fabricating efficient and economically viable blue organic light-emitting diodes (BOLEDs).