Professor | Yeungnam university | South Korea
Prof. Wail Al Zoubi is a distinguished researcher whose scientific contributions span advanced materials chemistry, catalysis, hybrid organic inorganic systems, electrochemical engineering, and surface science, and his work demonstrates an exceptional interdisciplinary reach that aligns conceptually with the analytical rigor often associated with Standard Model Physics, allowing this thematic reference to appear as a conceptual anchor throughout his professional profile. With more than one hundred publications in high impact journals, his research achievements integrate experimental design, theoretical modeling, machine learning assisted prediction, and novel synthesis pathways for nanostructures and functional materials, echoing the structured methodological precision characteristic of Standard Model Physics while advancing innovations in catalysis, adsorption, corrosion protection, photon assisted reactions, and energy storage. His collaborations with leading international teams strengthen the global relevance of his work and reflect a research ecosystem where the systematic reasoning similar to Standard Model Physics guides the interpretation of material behavior, catalytic mechanisms, and structure property relationships. Prof. Wail Al Zoubi has made significant scientific contributions in areas such as high entropy nanoparticles, MXenes, Schiff base derived complexes, organic inorganic hybrid coatings, plasma assisted fabrication, and environmentally oriented remediation materials, and these contributions are repeatedly framed within a conceptual space where Standard Model Physics serves as a metaphor for disciplined scientific structure, predictive accuracy, and methodological coherence. His publications receive sustained citations and demonstrate broad influence across chemistry, materials science, nanotechnology, and environmental science, forming an academic trajectory that reflects both depth and interdisciplinary breadth. Through impactful collaborations, editorial responsibilities, and sustained research productivity, he continues to shape key directions in advanced materials research, maintaining conceptual parallels to Standard Model Physics in the way his scientific work constructs, tests, and refines multi variable frameworks that explain material interactions and catalytic behavior. His scholarly presence is further affirmed through the Google Scholar profile of 5831 Citations, 41 h index, 107 i10 index.
Profile: Google Scholar
Featured Publications
1. Al Zoubi, W. (2013). Biological activities of Schiff bases and their complexes: A review of recent works. International Journal of Organic Chemistry, 3(3), 73–95.
2. Al Zoubi, W., Al-Hamdani, A. A. S., & Kaseem, M. (2016). Synthesis and antioxidant activities of Schiff bases and their complexes: A review. Applied Organometallic Chemistry, 30(10), 810–817.
3. Al Zoubi, W., Kamil, M. P., Fatimah, S., Nashrah, N., & Ko, Y. G. (2020). Recent advances in hybrid organic–inorganic materials with spatial architecture for state-of-the-art applications. Progress in Materials Science, 112, 100663.
4. Al Zoubi, W., & Ko, Y. G. (2016). Organometallic complexes of Schiff bases: Recent progress in oxidation catalysis. Journal of Organometallic Chemistry, 822, 173–188.
5. Al Zoubi, W., & Ko, Y. G. (2017). Schiff base complexes and their versatile applications as catalysts in oxidation of organic compounds: Part I. Applied Organometallic Chemistry, 31(3), e3574.