Journal
CHEMICAL PHYSICS LETTERS
Volume 780, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.cplett.2021.138947
Keywords
Tantalum nitride-oxy nitride; Mebendazole oxidation; Methylene blue and methyl red degradation; Photocatalytic activity; Poly(3; 4-ethylene dioxythiophene)-polyaniline
Funding
- UGC-CPEPA
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In this study, Ta3N5-TaON-PEDOT-PANI nanohybrids were synthesized and evaluated for electrochemical oxidation and dye degradation applications. The nanohybrids showed excellent activity and stability towards MBZ oxidation and photocatalytic dye degradation, with a highest dye degradation efficiency of > 97% obtained. A plausible dye degradation mechanism was proposed based on UV-Vis spectra, confirming the potential catalytic oxidation and degradation behavior of the nanohybrids.
The present study deals with the synthesis, characterization, and testing of tantalum nitride- tantalum oxynitride (Ta3N5-TaON) coupled organic polymers (poly (3,4-ethylene dioxythiophene)-polyaniline; PEDOT-PANI) for the electrochemical oxidation and dye degradation applications. The ammonolysis followed by chemical oxidation was employed for the formation of Ta3N5-TaON-PEDOT-PANI nanohybrids, and instrumental techniques such as powder XRD, XPS, FESEM, HR TEM, and UV-Vis analysis were used for the investigation of physicochemical properties. Further, the efficiency of formed nanohybrids was evaluated by taking the active electrocatalytic behavior towards mebendazole (MBZ) oxidation and photocatalytic dye (methylene blue and methyl red) degradations under UV-Visible light illumination. From the analysis of the results, the Ta3N5-TaON-PEDOT-PANI nanohybrids showed excellent activity and stability towards MBZ oxidation and photocatalytic dye degradation, i.e., the highest dye degradation efficiency of > 97% was obtained. Also, the MBZ degradation efficiency was continued for>500 min even after the test. Further from the photocatalytic results, a plausible dye degradation mechanism was proposed based on UV-Vis spectra and thereby confirming the potential catalytic oxidation and degradation behavior of Ta3N5-TaON-PEDOT-PANI nanohybrids.
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