Ahsan Riaz Khan | Electrochemistry | Best Researcher Award

Published on by Academic Achievements

Dr. Ahsan Riaz Khan | Electrochemistry | Best Researcher Award

Dr. Ahsan Riaz Khan | Electrochemistry | Postdoctorate at Tongji University | China

Dr. Ahsan Riaz Khan is a distinguished researcher in the fields of chemical engineering, environmental sciences, corrosion science, surface engineering, and biomaterials, with an academic journey that reflects both breadth and depth of expertise. He obtained his Ph.D. in Chemical Engineering from Northwest University, China, building on his earlier M.Phil. and Master’s degrees in Environmental Sciences from Bahauddin Zakariya University and Arid Agriculture University in Pakistan, alongside his graduation in Chemistry, Zoology, and Geography from B.Z. University. Professionally, Dr. Ahsan Riaz Khan has served in diverse roles that combine industrial and academic experience, including his current postdoctoral research at the School of Medicine, Tongji University, China, a research assistantship at Bahauddin Zakariya University, and his role as an Environmental Health and Safety Officer at Pak Elektron Limited. His research interests are strongly interdisciplinary, encompassing corrosion protection, coating technology, tribology, electrochemistry, biomaterials, surface modification, regenerative medicine, biological analysis, hemocompatibility, toxicity studies, and nanomaterials for biomedical and energy applications. He has consistently demonstrated advanced research skills, particularly in developing sustainable and cost-effective coating materials, surface modification of metals and alloys, evaluation of adhesion and interfacial energy, and electrochemical testing for corrosion resistance. His international collaborations have resulted in publications across high-impact outlets such as European Journal of Medical Research, Rare Metals, Engineered Regeneration, Cell Transplantation, Current Problems in Cardiology, Results in Engineering, Frontiers in Public Health, Frontiers in Chemistry, and ACS Omega, many of which are indexed in Scopus and IEEE and cited by researchers worldwide. His work highlights pioneering advances in smart hybrid scaffolds for clinical applications, biodegradable metals for implants, and innovative approaches to 3D-printed biomaterials. In recognition of his contributions, Dr. Ahsan Riaz Khan has earned research visibility and esteem within the academic community, with growing citations and invitations to collaborate internationally. His research is not only technically sound but also socially impactful, addressing pressing challenges in healthcare, environmental safety, and engineering innovation. With a strong vision for advancing materials science and biomedical research, Dr. Ahsan Riaz Khan continues to contribute knowledge that bridges engineering and medicine, demonstrating both academic leadership and potential for future global impact. His career trajectory, blending rigorous education, professional dedication, cutting-edge research, and scholarly achievements, clearly underscores why he is regarded as a promising leader and a deserving candidate for recognition in international academic platforms.

Profile: Google Scholar | Orcid

Featured Publications 

  1. LPM electrode loaded with RAPA-PLGA drug sustained-release system can reduce local fibrous tissue hyperplasia and local bioelectrical impedance – 2025 – Citations: 2

  2. Research advances and future perspectives of zinc-based biomaterials for additive manufacturing – 2025 – Citations: 1

  3. Advances in Smart Hybrid Scaffolds: A Strategic Approach for Regenerative Clinical Applications – 2025 – Citations: 4

  4. Raising the Bar: Progress in 3D-Printed Hybrid Bone Scaffolds for Clinical Applications: A Review – 2024 – Citations: 8

  5. Beyond the Beat: A Pioneering Investigation into Exercise Modalities for Alleviating Diabetic Cardiomyopathy and Enhancing Cardiac Health – 2023 – Citations: 12

  6. Recent advances in biodegradable metals for implant applications: Exploring in vivo and in vitro responses – 2023 – Citations: 15

  7. Electrochemical corrosion protection of neat and zinc phosphate modified epoxy coating: A comparative physical aging study on Al alloy 6101 – 2023 – Citations: 9