Dr. Mojeed Agoro | Material science | Best Researcher Award
UNIVERSITY OF FORT HARE , SOUTH AFRICA
Author Profile
Dr. Mojeed Agoro: A Journey in Chemistry and Education 🚀
📚 EARLY ACADEMIC PURSUITS
Dr. Mojeed Agoro embarked on his academic journey with a strong foundation in Chemistry Education, earning his BSc Ed. from Lagos State University in 2010. He later advanced his studies at the University of Fort Hare, South Africa, achieving a BSc Honours in 2015, an MSc in Analytical Chemistry in 2017, and a PhD in Chemistry in 2021. His doctoral research focused on integrating nanostructured metal sulfides into titanium (IV) oxide for high-performance dye-sensitized solar cells, achieving groundbreaking advancements in quantum dot technology.
🧪 PROFESSIONAL ENDEAVORS
Dr. Agoro has held significant roles in both academia and administrative capacities. At the University of Fort Hare, he served as a researcher, technical assistant, and coordinator, mentoring students and managing laboratory operations. His tenure as a Principal at NCM Computer and Business Academy showcased his leadership skills, where he negotiated staff contracts, improved cost-efficiency, and enhanced educational services.
In addition to academic roles, Dr. Agoro has supervised and co-supervised BSc and MSc students, with a record of mentoring 13 students to completion. His innovative teaching methodologies in Analytical Chemistry courses (PAC312 and PAC222) have left a lasting impact on undergraduate and postgraduate education.
🔬 CONTRIBUTIONS AND RESEARCH FOCUS ON MATERIAL SCIENCE
Dr. Agoro’s research spans nanostructured materials, renewable energy, wastewater treatment, and quantum dot solar cells (QDSCs). His postdoctoral work involved fabricating novel nanocrystals for photon absorbers, yielding notable advancements in nanotechnology.
Key accomplishments include:
- Developing flower-like FeS/FeS2 nanorods for enhanced solar cell performance.
- Evaluating physicochemical qualities and heavy metal regimes in wastewater, contributing to policy changes in South Africa.
With 15 publications and conference presentations, his work provides a vital foundation for innovations in sustainable chemistry.
🌍 IMPACT AND INFLUENCE
Dr. Agoro’s research contributes to global challenges like renewable energy and water quality. His leadership in organizing research projects and mentoring future scientists emphasizes his role as a catalyst for scientific innovation. As a registered member of prestigious organizations, including the Royal Society of Chemistry and the South African Chemical Institute, he actively engages in professional communities.
📈 ACADEMIC CITATIONS AND PUBLICATIONS
Dr. Agoro has an impressive record of peer-reviewed publications in high-impact journals, with notable works on nanostructured materials, environmental sustainability, and catalysis. His contributions to conferences further amplify his influence in the scientific community.
🏅 HONORS & AWARDS
Dr. Agoro’s excellence is recognized by numerous accolades:
- IIA 2024 International Innovator Award under the “Best Researcher Award” category.
- Multiple research grants, including a renewable niche research area grant of R2,000,000 annually (2023-2027).
- National Research Foundation (NRF) Postdoctoral Fellowship (2022-2023).
- Innovation Doctoral Scholarship from GMRDC (2015-2016).
🌐 LEGACY AND FUTURE CONTRIBUTIONS
Dr. Agoro’s work in nanostructured materials and renewable energy paves the way for future innovations in clean energy and water management. As a mentor, researcher, and leader, he continues to inspire the next generation of scientists, ensuring his legacy endures in the realms of academia and global sustainability.
🌠 FINAL NOTE
Dr. Mojeed Agoro exemplifies a blend of academic rigor, innovative research, and impactful teaching. His dedication to advancing chemistry and sustainable solutions underscores his lasting contribution to science and education.
📑 NOTABLE PUBLICATIONS
A Numerical Simulation Study of the Impact of Kesterites Hole Transport Materials in Quantum Dot-Sensitized Solar Cells Using SCAPS-1D
- Authors: Jakalase, S., Nqombolo, A., Meyer, E.L., Agoro, M.A., Rono, N.
- Journal: Nanomaterials
- Year: 2024
Assemble of porous heterostructure thin film through CuS passivation for efficient electron transport in dye-sensitized solar cells
- Authors: Agoro, M.A., Meyer, E.L., Olayiwola, O.I.
- Journal: Discover Nano
- Year: 2024
Fabrication of heterostructure multilayer devices through the optimization of Bi-metal sulfides for high-performance quantum dot-sensitized solar cells
- Authors: Agoro, M.A., Meyer, E.L., Olayiwola, O.I.
- Journal: RSC Advances
- Year: 2024
Coating of CoS on hybrid anode electrode with enhanced performance in hybrid dye-sensitized solar cells
- Authors: Agoro, M.A., Meyer, E.L.
- Journal: Electrochimica Acta
- Year: 2024
Improving the Conversion Ratio of QDSCs via the Passivation Effects of NiS
- Authors: Meyer, E.L., Agoro, M.A.
- Journal: Nanomaterials
- Year: 2024
Influence of a One-Pot Approach on a Prepared CuS Macro/Nanostructure from Various Molecular Precursors
- Authors: Agoro, M.A., Meyer, E.L.
- Journal: Inorganics
- Year: 2023
The formation of SnS nanorods orthorhombic phases grown from different molecular precursors
- Authors: Agoro, M.A., Meyer, E.L.
- Journal: Results in Chemistry
- Year: 2023