Dr. Sacha Cavelier | Material Science | Best Researcher Award | 2625

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Dr. Sacha Cavelier | Material Science | Best Researcher Award

Dr. Sacha Cavelier | Queensland University of Technology | Austria

Dr. Sacha Cavelier is a mechanical engineer and postdoctoral researcher at the Queensland University of Technology (QUT), specializing in advanced biomaterials, bone tissue engineering, and biomechanical characterization. Graduating as a biomedical-focused engineer from the École des Mines de Saint-Étienne (France), he advanced his research career through a Master’s and PhD in Mechanical Engineering at McGill University (Canada). His doctoral work introduced innovative strategies for next-generation bone graft materials, including multilayered titanium–calcium sulfate composites with superior strength, biocompatibility, and biodegradability, and led to multiple high-impact publications and patents. With more than seven years dedicated to developing ceramic-titanium bone graft composites, Dr. Cavelier has become a recognized expert in toughened biomaterials and bone regeneration. He further expanded his expertise during his postdoctoral fellowship at Ohio University, where he developed mineralized collagen scaffolds, supervised graduate students, and contributed to grant writing. At the University of Adelaide, he served as a visiting researcher, investigating the mechanical properties of human dura mater and pericranium. Currently at QUT’s ARC Centre for Cell & Tissue Engineering Technologies, Dr. Cavelier leads research on cartilage characterization, antibacterial coatings, and intramedullary implant technologies, including in vivo efficacy studies. He supervises PhD students, contributes to collaborative research programs, and continues to publish in leading journals such as Advanced Materials, Nanomaterials, Bioactive Materials, and Journal of the Mechanical Behavior of Biomedical Materials. Dr. Cavelier’s technical skillset spans additive manufacturing, finite-element modeling, biochemistry, mechanical testing, microscopy, and high-precision fabrication.

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Featured Publications

Yu, L., Cavelier, S., Hannon, B., & Wei, M. (2023). Recent development in multizonal scaffolds for osteochondral regeneration. Bioactive Materials, 25, 122–159.

Cavelier, S., Dastjerdi, A. K., McKee, M. D., & Barthelat, F. (2018). Bone toughness at the molecular scale: A model for fracture toughness using crosslinked osteopontin on synthetic and biogenic mineral substrates. Bone, 110, 304–311.

Cavelier, S., Mirmohammadi, S. A., & Barthelat, F. (2021). Titanium mesh-reinforced calcium sulfate for structural bone grafts. Journal of the Mechanical Behavior of Biomedical Materials, 118, 104461.

Cavelier, S., Quarrington, R. D., & Jones, C. F. (2022). Mechanical properties of porcine spinal dura mater and pericranium. Journal of the Mechanical Behavior of Biomedical Materials, 126, 105056.

Cavelier, S., Quarrington, R. D., & Jones, C. F. (2022). Tensile properties of human spinal dura mater and pericranium. Journal of Materials Science: Materials in Medicine, 34(1), Article 4.

Cavelier, S., Tanzer, M., & Barthelat, F. (2020). Maximizing the strength of calcium sulfate for structural bone grafts. Journal of Biomedical Materials Research Part A, 108(4), 963–971.

Muhammad Sarfraz | Material Science | Best Researcher Award

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Assoc. Prof. Dr. Muhammad Sarfraz | Material Science | Best Researcher Award

Assoc. Prof. Dr. Muhammad Sarfraz | University of Engeineering and Technology | Pakistan

Dr. Muhammad Sarfraz, PhD, is an accomplished Associate Professor in the Department of Polymer and Process Engineering at the University of Engineering and Technology (UET), Lahore. He brings extensive expertise in membrane technology, polymer processing, and sustainable separation systems, with a strong focus on solutions addressing global challenges such as carbon capture, water purification, and energy-efficient processes. With academic training spanning B.Sc., M.Sc., and Ph.D. in Chemical and Polymer Engineering—including doctoral research at King Fahd University of Petroleum and Minerals (KSA)—Dr. Sarfraz has built a prolific research portfolio. His scholarly impact is reflected in 155 citations across 126 documents, 22 publications, and an h-index of 8. His contributions include high-impact publications, competitive national research grants, and the supervision of multiple postgraduate theses, alongside significant efforts in laboratory establishment and curriculum development at UET. As In-charge of the Membrane Research Lab at UET, he continues to drive innovation in advanced materials and separation technologies. Beyond research, Dr. Sarfraz plays an active role in the global scientific community as a reviewer, editorial board member, and academic council contributor, making him a recognized leader in his field.

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Featured Publications

Shahzadi, K., Sarfraz, M., Alomar, M., Al Huwayz, M., Riaz, A., Mujtaba, M. A., Bashir, M. N., & Petrů, J. (2025, November). Zn-Co nanoferrites incorporated polysulfone nanofiltration membranes for wastewater treatment. Polymer Testing, 126, 108993.

Nawaz, S., Sarfraz, M., Alomar, M., Al Huwayz, M., & AlMohamadi, H. (2025, August). Antifouling polyethersulfone-based interfacial polymerization membranes for water treatment applications. Journal of Polymer Research, 32, 4528.

Riaz, A., Wu, C., Li, X., Sarfraz, M., Sun, L., Liu, L., Song, Y., & Ma, X. (2025, June). Huge improved gas separation performance of carbon molecular sieve membranes by incorporating polyimide COF into a linear polyimide precursor. Journal of Membrane Science, 714, 124103.

Sabir, A., Alomar, M., Sarfraz, M., & Yasmeen, F. (2025, June 15). Modulating membrane performance by optimizing coagulation temperature and dipping time. Journal of Applied Polymer Science, 142, e56998.

Khan, H. A. A., Sarfraz, M., Gouadria, S., Al-Harbi, F. F., & Shahzadi, K. (2025, May 15). Enhancing carbon capture efficacy of titania-doped polyethersulfone membranes. Arabian Journal for Science and Engineering, 50, 10263.

Alomar, M., Nawaz, S., Sarfraz, M., & Sabir, A. (2025, March). Genipin nanoparticles-doped reduced graphene oxide membranes: A promising solution for arsenic ion removal from wastewater. Arabian Journal for Science and Engineering, 50, 9634.

Sarfraz, M., Alomar, M., Ma, X., & Riaz, A. (2024). Ameliorating carbon capture efficiency of polysulfone membranes via collegial incorporation of zeolite imidazole frameworks and carbon nanotubes. Journal of Applied Polymer Science, 141, e55707.

Tahir, Z., Alomar, M., Sarfraz, M., Waheed, A., & Ayub, H. M. U. (2024). Carbon capturing composite membranes comprising Cu-MOF and PIM-1. Journal of Applied Polymer Science, 141, e55709.

Sagar, S., Riaz, A., Hasanain, B., Bahadar, A., & Sarfraz, M. (2024). Deportment tuning of polymeric gas separation membranes: ZIF-L/PES nanocomposite. Arabian Journal for Science and Engineering, 49, 8522.

Sarfraz, M., Ayyaz, M., Rauf, A., Yaqoob, A., Ali, M. A., Siddique, S. A., Qureshi, A. M., Sarfraz, M. H., Aljowaie, R. M., & Almutairi, S. M. (2024). New pyrimidinone bearing aminomethylenes and Schiff bases as potent antioxidant, antibacterial, SARS-CoV-2, and COVID-19 main protease Mpro inhibitors: Design, synthesis, bioactivities, and computational studies. ACS Omega, 9(1), 9393–

Khalid, J., Tariq, Z., Sarfraz, M., Mahmoud, K. H., & Abid, N. (2024). Pilot scale trialing of multi-leaf spiral-wound polymer membrane modules for efficient carbon capture. Arabian Journal for Science and Engineering, 49, 8809.