Dr. Aqeel Ur Rehman | Nanoscale Photonics Research | Best Researcher Award

Dr. Aqeel ur Rehman | The Islamia University of Bahawalpur | Pakistan

Dr. Aqeel Ur Rehman, Ph.D., is a dynamic mathematician at The Islamia University of Bahawalpur, bringing expertise in mathematical modeling, analysis, and computational simulation. Fluent in English and Urdu, he is renowned for his collaborative spirit and precision-driven mindset. Passionate about developing bespoke mathematical solutions for engineering systems, he excels in planning, problem analysis, and timely execution. His training includes extensive use of tools like Mathematica, MATLAB, R‑Studio, and MS Office, complemented by strong communication and teamwork abilities. As a dedicated researcher and educator, he remains committed to staying current with evolving mathematical methodologies, continually enhancing his skillset, and contributing to advancements in applied mathematics. His publications reflect his scholarly focus on nanofluid dynamics, heat and mass transfer, and stability analysis in technologically relevant systems.

Profile 

Orcid 

Education

Dr. Rehman’s academic journey spans from matriculation to a doctorate, all from The Islamia University of Bahawalpur. He completed Matric Science followed by Intermediate in Computer Science, building a foundational interest in mathematics and computational tools. He earned a Bachelor of Science in Mathematics and advanced to complete an M.Sc., deepening his theoretical and operational research skills. He pursued an M.Phil. in Mathematics, focusing on advanced differential equations and applied analysis. Finally, he was awarded a Ph.D. in Mathematics, where his dissertation centered on mathematical modeling of nanofluid flow, stability, and heat transfer using numerical techniques. His educational accomplishments reflect a continuum of academic growth in applied mathematics, computational modeling, and analytical rigor, culminating in his doctoral research contribution to fluid mechanics and hybrid nanofluid systems.

Experience

Dr. Rehman began his teaching career as a College Teaching Intern (CTI) at Government Post Graduate College, Bahawalpur, where he honed instructional skills in mathematics. He then served as Visiting Lecturer in the Department of CS & IT at The Islamia University of Bahawalpur, merging computational thinking with theoretical mathematics. Following this, he returned as CTI at Government Sadiq College of Commerce, reinforcing his ability to teach diverse student backgrounds. Currently, Dr. Rehman is a Visiting Lecturer in the Department of Statistics at the same university, where he continues to engage in academic teaching while advancing his research. Through these roles, he has gained valuable experience in curriculum delivery, student mentoring, and interdisciplinary teaching — all reinforcing his contributions to academia.

Awards & Honors

While there are no formal awards listed in the profile, Dr. Rehman has earned indirect recognition through high-impact publications in reputable international journals—a significant marker of scholarly excellence. Being published consistently in journals such as Numerical Heat Transfer, Nanotechnology, ZAMM, and Scientia Iranica implies peer-validation and the rigor of his work. Collaborative publications with international co-authors and multidisciplinary teams suggest recognition of his methodological and analytical contributions. His ability to publish multiple papers annually in good journals highlights the trust of editors and peer reviewers in his research. Participation in interdisciplinary modeling efforts—from porous medium flows to thermal radiation and hybrid nanofluids—further reflects his standing in scientific circles. Though no specific awards are mentioned, his output and venues of publication underscore a respected and emerging profile in applied mathematics research.

Research Focus

Dr. Rehman’s research spans advanced modeling of nanofluid dynamics, focussing on hybrid and ternary nanofluids interacting with complex geometries and physical processes. Core investigations address heat and mass transfer mechanisms, stability analysis, and radiative and chemically reactive flows. He applies analytical and numerical tools such as the Galerkin method, least squares, and collocation techniques to develop solutions for coupled flow–thermal problems. His work encompasses MHD (magnetohydrodynamics) effects, melting heat transfer, boundary-layer flows over stretching or rotating surfaces, and flows in porous media. Dr. Rehman integrates computational platforms like Mathematica, MATLAB, and R‑Studio to simulate, verify, and visualize outcomes. His research has practical implications in thermal engineering, biomedical systems (e.g., flows through stenotic arteries), and energy devices. This multidisciplinary modeling connects fluid mechanics, applied mathematics, and computational simulation, aimed at solving real‑world thermal‑transport challenges.

Top Publications 

Comparative investigation on radiative and heat generation effects of ternary hybrid nanofluid flow over a curved permeable surface: Stability analysis

• Authors: Ullah, M.Z., Abbas, Z., Rehman, A.U., Mallawi, F., & Alshehri, H.M.
• Journal: Chinese Journal of Physics
• Year: 2024

On thermally convective flow of nanofluid past a vertical flat surface through porous medium filled with water at 4°C: Analysis of temporal stability test

• Authors: Abbas, Z., Saeed, S., Rehman, A.U., & Rafiq, M.Y.
• Journal: Journal of Porous Media
• Year: 2025

Thermally radiative flow of non‐Newtonian fluid in an inclined channel through variable permeability

• Authors: Abbas Z., Saleem, M., Rafiq, M.Y., Shahzad, H., & Rehman, A.U.
• Journal: Journal of Engineering and Applied Sciences
• Year: 2025

Computational analysis of radiative and viscous dissipation impacts on two-phase dusty hybrid nanofluid flow over a permeable surface

• Authors: Almazrooei, A.E., Ullah, M.Z., Rehman, A.U., & Abbas, Z.
• Journal: Case Studies in Thermal Engineering
• Year: 2025

Enhancing thermal efficiency of chemically reactive ternary hybrid nanofluid flow via a stenotic artery with radiation impacts: Collocation method

• Authors: Ullah, M.Z., Almuzaini, M., Rehman, A.U., Abbas, Z., Ayed, H., & Mouldid, A.
• Journal: Case Studies in Thermal Engineering
• Year: 2025

Conclusion

Dr. Aqeel Ur Rehman is a highly capable and dedicated researcher whose contributions to the field of applied mathematics and fluid dynamics are both impactful and steadily growing. With a solid educational foundation and consistent teaching experience, he has successfully integrated theoretical knowledge with practical applications in mathematical modeling, particularly in nanofluid mechanics and heat transfer. His publication record across reputable international journals reflects not only his subject mastery but also his commitment to advancing research frontiers. His interdisciplinary work, involving engineering, physics, and computational tools, demonstrates versatility and innovation in solving complex real-world problems. Dr. Rehman’s academic integrity, technical skills, and collaborative approach make him a deserving nominee for the Best Researcher Award. As he continues to evolve in his career, there is great promise for further impactful discoveries, deeper collaborations, and greater leadership in both teaching and research.