Synthesis of Kaolin-Supported Nickel Oxide Composites for the Catalytic Oxidative Degradation of Methylene Blue Dye

Kedir Seid Mohammed; Minaleshewa Atlabachew; Belete Asefa Aragaw; Zinabu Gashaw Asmare

doi:10.1021/acsomega.3c05126

Synthesis of Kaolin-Supported Nickel Oxide Composites for the Catalytic Oxidative Degradation of Methylene Blue Dye

ACS Omega. 2024 Jan 17;9(4):4287-4299. doi: 10.1021/acsomega.3c05126. eCollection 2024 Jan 30.

Authors

Kedir Seid Mohammed¹, Minaleshewa Atlabachew¹, Belete Asefa Aragaw¹, Zinabu Gashaw Asmare¹

Affiliation

¹ Department of Chemistry, College of Science, Bahir Dar University, P.O. Box 79, Bahir Dar 6000, Ethiopia.

Abstract

Organic dye contamination of water is a contributing factor to environmental pollution and has a negative impact on aquatic ecology. In this study, unsupported NiO and kaolin-supported NiO composites were synthesized by a one-step wet impregnation-precipitation method through the precipitation of nickel hydroxide onto locally accessible, inexpensive, and easily treated kaolin surfaces by using sodium hydroxide as a precipitating agent. The product was calcined at 500 °C and used for the catalytic oxidative degradation of methylene blue (MB) dye in an aqueous solution. The morphology, structure, and interactions of the synthesized materials were explored by SEM, XRD, and FT-IR spectroscopy. The characterization results revealed the fabrication and the growth of NiO on the kaolin surface. To determine the catalytic oxidative degradation performance of the catalyst, many experiments have been performed using the MB dye as a model dye. The catalytic degradation tests confirmed the importance of NiO and the high catalytic activity of the synthesized NiO/kaolin composite toward MB dye degradation. The oxidative degradation results showed that the optimized precursor amount on the kaolin surface could efficiently enhance the removal of MB dye. The kinetic investigation of the catalytic degradation of MB dye fitted the pseudo-first-order kinetic model. High removal efficiency was observed after eight reuse cycles, proving the exceptional stability and reusability of the composite. The catalytic process also proceeded with a low activation energy of 30.5 kJ/mol. In conclusion, the kaolin-supported NiO composite was established to be a favorable catalyst to degrade a model dye (MB) from an aqueous solution in the presence of inexpensive and easily available NaOCl with a catalytic efficiency of the material higher than 99% of the 20.3 mg catalyst within 6 min with an apparent rate constant, k_app, higher than 0.44625 min^-1, which is far better than that of the unsupported catalyst with a k_app of 0.0926 min^-1 at 10 mg dose in 20 min.