Mr Siavash Aghili
Higher Degree by Research Candidate
School of Chemical Engineering
College of Engineering and Information Technology
Siavash Aghili has been awarded the University of Adelaide Research PhD Scholarship to conduct research on electrospun polymeric nanofibers for emerging applications, including wound dressings, environmental, and energy-related technologies, under the supervision of Dusan Losic and Dr Tran Tung.
He completed his M.Sc. in Materials Engineering at Isfahan University of Technology. He subsequently worked as a Research Assistant and Research Associate, further developing his research expertise and technical experience in materials engineering.
His core research interests focus on the design, development, and fabrication of engineering materials using various processing and fabrication methods involving ceramic, metallic, and polymeric systems for diverse applications. He also has experience in carbonaceous materials, particularly graphene-related materials (GRMs), with a focus on their oxidative kinetics and related material behaviors.
| Date | Institution name | Country | Title |
|---|---|---|---|
| 2024 | University of Adelaide | Australia | PhD Chemical Engineering and Advanced Materials |
| 2015 | Isfahan University of Technology | Iran | Master of Materials Engineering |
| Year | Citation |
|---|---|
| 2026 | Aghili, S., Awad, M., Adnan, M. H., Bouras, G., Tung, T. T., Vreugde, S., & Losic, D. (2026). Electrospun Phage-Loaded Bilayer Nanofibrous Scaffolds for Wound Dressing Applications: A Comparative Study of Different Bacteriophages. Journal of Functional Biomaterials, 17(2), 60. Scopus1 WoS1 |
| 2025 | Dadkhah, M., Shearer, C., Jalil, M. A., Aghili, S., & Losic, D. (2025). Size-Dependent Colouration Efficiency of Electrochromic Niobium Oxide Smart Windows. Optical Materials, 173, 117791-1-117791-9. Scopus1 WoS1 |
| 2024 | Aghili, S., Panjepour, M., & Losic, D. (2024). Kinetic analysis of fullerene C₆₀ thermal degradation via deconvolution method. Fullerenes, Nanotubes, and Carbon Nanostructures, 33(1), 90-102. Scopus1 |
| 2023 | Malekpour, F., Aghili, S., Panjepour, M., Meratian, M., & Alizadeh, J. (2023). Theoretical and Experimental Study on the Formation Mechanisms of TiAl: Using the Method of Molecular Dynamics Simulation and SPS Method. JOM, 75(11), 4894-4909. Scopus2 WoS2 |
| 2022 | Aghili, S., Panjepour, M., & Meratian, M. (2022). The kinetics and mechanism of B2O3 formation from the chemically-synthesized HBO2 under non-isothermal conditions. Reaction Kinetics Mechanisms and Catalysis, 135(1), 349-365. Scopus4 WoS7 |
| 2022 | Aghili, S., Panjepour, M., & Ghiaci, M. (2022). Degradation mechanism and oxidation kinetics of C60 fullerene. Diamond and Related Materials, 124, 12 pages. Scopus11 WoS9 |
| 2020 | Aghili, S., Panjepour, M., Meratian, M., & Hadadzadeh, H. (2020). Effects of boron oxide composition, structure, and morphology on B4C formation via the SHS process in the B2O3–Mg – C ternary system. Ceramics International, 46(6), 7223-7234. Scopus19 WoS18 |
| 2018 | Aghili, S., Panjepour, M., & Meratian, M. (2018). Kinetic analysis of formation of boron trioxide from thermal decomposition of boric acid under non-isothermal conditions. Journal of Thermal Analysis and Calorimetry, 131(3), 2443-2455. Scopus54 WoS53 |
| - | Danushika, G., Yap, P. L., Aghili, S., Sandhu, G. S., & Losic, D. (2026). From Production to Market: Challenges and Opportunities of Graphene-Related Materials. C, 12(2), 35. |
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