Yaba College of Technology | Nigeria
Dr. Msenhemba Moses Mchihi is a physical chemist whose research focuses on corrosion inhibition, green chemistry, nanomaterials, electrochemistry, adsorption studies, and computational chemistry. His work centers on developing eco-friendly corrosion inhibitors derived from plant extracts, green-synthesized metal oxide nanoparticles, and nanocomposites for protecting mild steel and aluminum in acidic and alkaline environments. Through extensive electrochemical, gravimetric, spectroscopic, microscopic, gas chromatography, and density functional theory (DFT) analyses, he has contributed significantly to understanding the mechanisms, thermodynamics, and kinetics of corrosion inhibition using sustainable materials. His research also extends to adsorption studies involving heavy-metal removal from aqueous solutions using low-cost agricultural wastes such as coconut shell activated carbon and rice husk, highlighting his commitment to environmental remediation. Dr. Mchihi has authored numerous publications in reputable chemistry journals, including studies on CuO-based nanocomposites, plant-mediated zinc oxide nanoparticles, green inhibitors such as Ficus sur, Justicia schimperi, Annonamuricata, Bauhinia tomentosa, and mixtures of Codiaeum variegatum and Ficus benjamina. He has also contributed a chemistry textbook on mole concept and chemical calculations. His scholarly excellence has earned him distinctions such as the Best Staff Award of the Chemical Science Department at Yaba College of Technology and recognition from the University of Ibadan Postgraduate College. In addition to research, he has presented at multiple national and international scientific conferences and serves in administrative roles, including Examination Officer and Seminar Coordinator at Yaba College of Technology.
Featured Publications
1. Mchihi, M. M., Olatunde, A. M., & Odozi, N. W. (2025). Electrochemical and gravimetric studies of the corrosion inhibitory properties of green synthesized copper oxide nanoparticles mediated by Ficus sur for mild steel in HCl. Jordan Journal of Chemistry, 20(2), 81–93.
2. Mchihi, M. M., Odozi, N. W., & Odimuko, A. B. (2025). Deciphering properties of Dryopteris marginalis as green corrosion inhibitor for mild steel in HCl: Electrochemical, gas chromatography and DFT studies. Sustainable Chemistry One World, 7, 100103.
3. Mchihi, M. M., Olatunde, A. M., & Odozi, N. W. (2025). CuO-based nanocomposite: Synthesis, characterization, and evaluation of the corrosion inhibition effectiveness for mild steel in HCl. Journal of Electrochemical Science and Engineering, 15(4), 2715.
4. Mchihi, M. M., Odozi, N. W., Nurudeen, A. O., Emesiani, M. C., & Seriki, B. O. (2024). Assessment of Helianthus tuberosus leaves extract as eco-friendly corrosion inhibitor for aluminum in sodium hydroxide: Insights from electrochemical, gravimetry, and computational consideration. Moroccan Journal of Chemistry, 12(4), 1462–1483.
5. Odozi, N. W., Emesiani, M. C., Charles, C. D., Seriki, B. O., & Mchihi, M. M. (2024). Electrochemical studies of the corrosion inhibitory potential of Annona muricata leaves extract on aluminum in hydrochloric acid medium. FUDMA Journal of Sciences, 8(3), 395–401.