Synthesis and characterization of solution-processable core-1,2, 4-triazoline-3,5-diones derivatives as organic semiconductors

Synthesis and characterization of solution-processable core-1,2, 4-triazoline-3,5-diones derivatives as organic semiconductors

Organic semiconductors have drawn significant interest over the last two decades as essentialcomponents of various flexible electronic devices such as flexible displays, printable RFID tags, andsensors. To enhance the electrical properties of organic semiconductors, the design, synthesis, andcharacterization of new organic semiconductors has been of great interest. 1,2,4-Triazoline-3,5-dione derivatives are known to have various biological activities. The corestructure of phenyl triazolopyridazine derivatives seems to be promising as potential organicsemiconductors. To validate this possibility, two new compounds are synthesized and characterized using DSC, TGA,UV–vis, CV, XRD, and AFM. Organic TFT performance was showing but low.

Organic semiconductors have drawn significant interest over the last two decades as essentialcomponents of various flexible electronic devices such as flexible displays, printable RFID tags, andsensors. To enhance the electrical properties of organic semiconductors, the design, synthesis, andcharacterization of new organic semiconductors has been of great interest. 1,2,4-Triazoline-3,5-dione derivatives are known to have various biological activities. The corestructure of phenyl triazolopyridazine derivatives seems to be promising as potential organicsemiconductors. To validate this possibility, two new compounds are synthesized and characterized using DSC, TGA,UV–vis, CV, XRD, and AFM. Organic TFT performance was showing but low.