Dr. Abdul Qayoom Mugheri | University of Sindh | Electrochemistry
Professional Profiles:
Early Academic Pursuits
Dr. Abdul Qayoom embarked on his academic journey with a profound interest in Chemistry, culminating in a successful academic career characterized by notable achievements.
Professional Endeavors
Spanning across diverse educational institutions and roles, Dr. Qayoom showcased his expertise and dedication through roles as a Lecturer at various institutions, contributing significantly to the field of Chemistry education.
Contributions and Research Focus
His research primarily focused on the synthesis and characterization of nanostructured materials, particularly in the domain of electrochemical water splitting. Dr. Qayoom's pioneering work in developing composite metal oxide nanostructures for efficient electrocatalysis stands as a testament to his commitment to sustainable energy.
Accolades and Recognition
Dr. Qayoom's contributions are well-recognized and acknowledged globally, evident in his extensive list of peer-reviewed international publications in renowned journals with high impact factors.
Impact and Influence
His work not only significantly advanced the understanding of electrocatalysts but also holds immense promise for applications in sustainable energy production, paving the way for a greener future.
Legacy and Future Contributions
Dr. Qayoom's legacy lies in his pioneering research, which serves as a foundation for further advancements in the field of nanostructured materials and sustainable energy. His vision for the future involves continued exploration in clean energy and green materials for the betterment of society and the environment.
Notable Publications:
- Low Temperature Aqueous Chemical Growth Method for the Doping of W into ZnO Nanostructures and Their Photocatalytic Role in the Degradration of Methylene Blue-Bhatti, M.A., Almaani, K.F., Shah, A.A., ...Nafady, A., Ibupoto, Z.H., Journal of Cluster ScienceThis link is disabled., 2022, 33(4), pp. 1445–1456, (14)
- Simultaneous doping of sulfur and chloride ions into ZnO nanorods for improved photocatalytic properties towards degradation of methylene blue-Ujjan, Z.A., Bhatti, M.A., Shah, A.A., ...Vigolo, B., Ibupoto, Z.H., Ceramics InternationalThis link is disabled., 2022, 48(4), pp. 5535–5545, (20)
- Enhanced the electrochemical performance of mesh nano composite based catalyst for oxygen evolution reaction: Recent development- Mugheri, A.Q., Daudpoto, M.R., Talpur, M.G.H., Ali, O.A.A., Saleh, D.I., International Journal of Hydrogen EnergyThis link is disabled., 2022, 47(6), pp. 3556–3567, (3)
- A new hyperbranched water-splitting technique based on Co3O4/MoS2 nano composite catalyst for High-Performance of hydrogen evolution reaction- Mugheri, A.Q., Daudpoto, M.R., Sangah, A.A., ...El-Bahy, Z.M., El-Badry, Y.A., International Journal of Hydrogen EnergyThis link is disabled., 2022, 47(4), pp. 2124–2133, (5)
- The Crystal Disorder into ZnO with Addition of Bromine and It’s Outperform Role in the Photodegradation of Methylene Blue-Ujan, Z.A., Tahira, A., Mahesar, A.A., ...Nafady, A., Ibupoto, Z.H., Journal of Cluster ScienceThis link is disabled., 2022, 33(1), pp. 281–291, (1)
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Self-supported bimetallic based materials deeply self-reconstructing electrocatalysts for advances in hydrogen production-Pirzada, L.A., Mugheri, A.Q., Ghanghro, S., ...Ibupoto, M.H., Ahmed, K., Journal of the Chinese Chemical SocietyThis link is disabled., 2022, 69(11), pp. 1886–1896 (1)