Research Excellence Award
John Anyanwu
Africa Center of Excellence in Future Energies & Electrochemical Systems (ACEFUELS), Federal University of Technology, Owerri (FUTO), Nigeria
| John Anyanwu |
| Affiliation |
Africa Center of Excellence in Future Energies & Electrochemical Systems |
| Country |
Nigeria |
| Scopus ID |
58749718000 |
| Documents |
8 |
| Citations |
9 |
| h-index |
2 |
| Subject Area |
Chemistry and Materials Science |
| Event |
Top Teachers Awards |
| ORCID |
0009-0002-3955-1339 |
John Anyanwu is a Nigerian materials chemist and researcher affiliated with the Africa Centre of Excellence in Future Energies and Electrochemical Systems (ACEFUELS) at the Federal University of Technology, Owerri. His academic work focuses on advanced functional materials for sustainable energy technologies, carbon capture systems, electrochemical applications, and perovskite photovoltaic materials. His research activities contribute to the development of scalable clean-energy technologies and environmentally responsive materials relevant to climate mitigation and sustainable industrial advancement.[1]
Abstract
This academic article presents an overview of the research profile, scientific contributions, and scholarly activities of John Anyanwu in the field of chemistry and materials science. His work primarily addresses the development of advanced porous materials, perovskite photovoltaics, electrochemical systems, and sustainable technologies for carbon capture and environmental remediation. Through interdisciplinary research involving materials synthesis, computational modelling, and device fabrication, his studies contribute to broader discussions concerning climate adaptation, renewable energy systems, and scalable clean-energy infrastructure in Africa.[2]
Keywords
Metal-organic frameworks; Direct air capture; Perovskite photovoltaics; Electrochemical systems; Sustainable materials; Carbon capture; Materials chemistry; Energy storage; Environmental remediation; Clean energy technologies.
Introduction
Contemporary research in chemistry and materials science increasingly focuses on the development of environmentally sustainable technologies capable of addressing global energy demands and climate-related challenges. Within this context, John Anyanwu has contributed to emerging research areas involving porous materials, advanced photovoltaic systems, and electrochemical technologies. His academic work demonstrates a multidisciplinary approach integrating materials chemistry, engineering applications, and sustainability-oriented scientific innovation.[3]
His research activities are associated with the Africa Centre of Excellence in Future Energies and Electrochemical Systems (ACEFUELS), an internationally recognised research centre dedicated to future energy systems and advanced electrochemical technologies. Through both academic and industrial collaborations, his work seeks to improve material stability, scalability, and applicability within energy systems adapted to African climatic and industrial contexts.[1]
Research Profile
John Anyanwu completed his Bachelor of Technology degree in Industrial Chemistry at the Federal University of Technology, Owerri, followed by a Master of Science degree in Future Energies. He subsequently pursued doctoral studies in Electrochemical Technology under ACEFUELS, with research interests centred on advanced photovoltaic materials, porous structures, and scalable clean-energy technologies.[4]
His professional experience includes serving as a PhD Researcher and Project Lead at ACEFUELS, where he has coordinated experimental investigations involving wet-chemistry synthesis, structural characterisation, gas adsorption studies, and electrochemical system design. He also serves as Chief Technology Officer and Co-Founder of ACEFUELS Innovation Ltd., contributing to the development of climate-resilient perovskite solar cell technologies in Nigeria.[4]
- Research focus on MOF-74 analogues for carbon dioxide capture and environmental remediation.
- Investigation of perovskite solar cell phase stability and scalable photovoltaic manufacturing.
- Application of electrochemical systems for sustainable environmental technologies.
- Integration of computational modelling and structural characterisation techniques.
Research Contributions
John Anyanwu’s research contributions address both fundamental and applied aspects of materials chemistry. His investigations into metal-organic frameworks (MOFs) examine their potential for direct air capture systems and carbon storage technologies. Particular attention has been directed toward MOF-74 structures as promising candidates for carbon dioxide sorption and industrial environmental remediation processes.[5]
In the field of photovoltaic materials, his studies evaluate strategies for improving the phase stability and scalability of FAPbI₃ perovskite materials. This research contributes to ongoing efforts aimed at enhancing photovoltaic device durability, reducing defect formation, and improving the commercial viability of perovskite-based solar technologies.[6]
Additional contributions involve electrochemical treatment systems for dye degradation and sustainable environmental applications. These investigations combine principles of electrochemistry and green chemistry to support environmentally responsive industrial treatment approaches.[7]
Publications
Selected peer-reviewed publications associated with John Anyanwu include the following scholarly works:
-
- Anyanwu, J.O. (2025). Breaking Barriers in FAPbI₃ Perovskite Photovoltaics: Synergistic Strategies for Phase Stability, Defect Mitigation, and Scalable Production. Solar RRL.https://doi.org/10.1002/solr.202500809
- Anyanwu, J. O., Johnson, S. A., & Ukanero, S. C. (2026). MOF-74: A leading contender for direct air capture, navigating the path from promise to practicality. Adsorption, 32(3).https://doi.org/10.1007/s10450-026-00680-5
- Anyanwu, J.O. (2024). Strategies for Effective Degradation of Methyl Orange Dye via Electrochemical Treatment. Periodica Polytechnica Chemical Engineering. https://doi.org/10.3311/PPch.22645
Research Impact
The scientific contributions of John Anyanwu demonstrate relevance to global sustainability priorities, particularly within the domains of renewable energy systems, carbon mitigation technologies, and environmentally responsive materials science. His work contributes to broader scientific discussions concerning direct air capture technologies, advanced sorbent materials, and scalable photovoltaic systems suitable for developing economies.[5]
His engagement with multidisciplinary research programmes and scientific dissemination activities further reflects active participation within the international chemistry and materials science community. Participation in conferences such as the Pan Africa Chemistry Network Congress and collaborations involving industrial stakeholders strengthen the translational relevance of his research activities.[4]
Award Suitability
John Anyanwu’s academic profile aligns with the objectives of the Top Teachers Awards through his sustained engagement in scientific research, higher education, and innovation-driven materials science. His contributions to future energy systems, sustainable chemistry, and carbon capture technologies demonstrate an interdisciplinary research trajectory with practical societal implications.[2]
The combination of scholarly publication output, emerging citation metrics, industrial collaboration initiatives, and leadership roles within research-oriented organisations reflects a developing academic career focused on scientific advancement and educational contribution within the field of chemistry and materials science.[1]
Conclusion
John Anyanwu represents an emerging researcher within the fields of materials chemistry and sustainable energy systems. His academic activities encompass advanced porous materials research, photovoltaic technology development, electrochemical treatment systems, and carbon capture technologies. Through ongoing interdisciplinary research and collaborative innovation initiatives, his work contributes to the evolving scientific landscape focused on sustainable energy solutions and environmental resilience.[6]
External Links
References
1. Anyanwu, J. O., Johnson, S. A., & Ukanero, S. C. (2026). MOF-74: A leading contender for direct air capture, navigating the path from promise to practicality. Adsorption, 32(3). https://doi.org/10.1007/s10450-026-00680-5
2. Anyanwu, J.O. (2025). Breaking Barriers in FAPbI₃ Perovskite Photovoltaics: Synergistic Strategies for Phase Stability, Defect Mitigation, and Scalable Production. Solar RRL. https://doi.org/10.1002/solr.202500809
3. Anyanwu, J.O. (2024). Strategies for Effective Degradation of Methyl Orange Dye via Electrochemical Treatment. Periodica Polytechnica Chemical Engineering. https://doi.org/10.3311/PPch.22645
4. Elsevier. (n.d.). Scopus author details: John Anyanwu, Author ID 58749718000. Scopus. https://www.scopus.com/authid/detail.uri?authorId=58749718000