Dr. Vahid Sabaghi | Nanotechnology Promotion Institution of Auxin | Iran
Vahid Sabaghi is a nanochemist whose research focuses on the design, synthesis, and advanced characterization of multifunctional nanomaterials for theranostic, photocatalytic, and biomedical applications, with particular emphasis on porous structures, intelligent drug-delivery platforms, and tumor-microenvironment–responsive nanosystems. His work spans the development of metal oxide nanomaterials, MOF-derived nanostructures, MnO₂-based theranostics, lanthanide-enhanced imaging agents, and pH-responsive drug-delivery composites, contributing significantly to targeted therapy and multimodal imaging technologies. He has published impactful studies on ZnO-PEG-DOX nanocomposites, hierarchical α-MnO₂ platforms for MRI enhancement, and multifunctional MnO₂ systems capable of hypoxia modulation, optical biosensing, and controlled drug release. His contributions also extend to the synthesis of AlON composites, transparent ceramic materials, and photocatalytically active TiO₂ and copper sulfide nanomaterials with improved pollutant-degradation efficiency. Sabaghi’s expertise in structural and morphological analysis includes XRD, SEM, TEM, BET, thermal analysis, photoluminescence, and related characterization techniques. His research interests cover nanoparticle engineering, multifunctional nanoplatforms, porous material synthesis, imaging-guided therapy, photocatalysis, and nanotechnology-based biomedical innovations. He has been acknowledged for outstanding academic performance, national scientific excellence, and contributions to nanoscience education and research. His body of work reflects a strong commitment to developing next-generation nanosystems for precision medicine, environmental applications, and advanced material technologies, positioning him as a promising researcher in modern nanochemistry and nanotechnology.
Profile: Google Scholar
Featured Publications
Sabaghi, V., Davar, F., & Fereshteh, Z. (2018). ZnS nanoparticles prepared via simple reflux and hydrothermal method: Optical and photocatalytic properties. Ceramics International, 44(7), 7545–7556.
Davar, F., Shayan, N., Hojjati‐Najafabadi, A., Sabaghi, V., & Hasani, S. (2017). Development of ZrO₂–MgO nanocomposite powders by the modified sol‐gel method. International Journal of Applied Ceramic Technology, 14(2), 211–219.
Sabaghi, V., Davar, F., Rashidi-Ranjbar, P., & Abdi, A. (2023). Synthesis and evaluation of pH-responsive mesoporous ZnO/PEG/DOX nanocomposite based on Zn-HKUST-1 MOF nanostructure for targeted drug delivery. Journal of Porous Materials, 30(1), 201–209.
Sabaghi, V., Davar, F., & Taherian, M. H. (2019). Ultrasonic-assisted preparation of AlON from alumina/carbon core-shell nanoparticle. Ceramics International, 45(3), 3350–3358.
Sabaghi, V., Rashidi-Ranjbar, P., Davar, F., & Sharif-Paghaleh, E. (2023). Hierarchical design of intelligent α-MnO₂-based theranostics nanoplatform for TME-activated drug delivery and T1-weighted MRI. Journal of Drug Delivery Science and Technology, Article 104262.
Sabaghi, V., Davar, F., & Taherian, M. H. (2019). Preparation of alumina/AlON and AlON/AlN composites from Al₂O₃/carbon nanocomposite by solvothermal method. Ceramics International, 45(5), 6074–6084.