Inorganic Chemistry Excellence Award
| Hamed Najafi-Ashtisn | |
|---|---|
| Researcher | Hamed Najafi-Ashtisni |
| Affiliation | Velayat University |
| Country | Iran |
| Scopus ID | 56609222200 |
| Documents | 28 |
| Citations | 533 |
| h-index | 14 |
| Subject Area | TiO₂ |
| Event | International Research Chemistry Awards |
| ORCID | 0000-0002-9977-8474 |
Hamed Najafi-Ashtisni
Institution: Velayat University, Iran
Hamed Najafi-Ashtisni is a researcher affiliated with Velayat University, Iran, whose scholarly activities focus on titanium dioxide (TiO₂), inorganic chemistry, nanomaterials, photocatalysis, and functional material development. According to the Scopus author profile, the researcher has produced 28 indexed publications, accumulated 533 citations, and achieved an h-index of 14, reflecting sustained academic productivity and measurable research influence within the field of inorganic chemistry.[1]
Contents
Abstract
Hamed Najafi-Ashtisni has established a research profile centered on inorganic chemistry, particularly titanium dioxide (TiO₂)-based materials and their scientific applications. His publications investigate synthesis methods, nanostructured materials, photocatalytic processes, surface modification, and functional inorganic compounds for environmental and technological applications. With 28 Scopus-indexed publications, 533 citations, and an h-index of 14, his scholarly record demonstrates consistent contributions to inorganic materials research. These achievements indicate sustained engagement in advancing fundamental understanding and practical applications of inorganic chemistry while supporting innovation in nanotechnology, catalysis, and advanced material sciences through internationally visible scientific publications.[1]
Keywords
Titanium Dioxide, TiO₂, Inorganic Chemistry, Nanomaterials, Photocatalysis, Semiconductor Materials, Surface Engineering, Crystal Structure, Oxide Materials, Material Synthesis, Environmental Chemistry, Catalytic Materials.[3]
Introduction
Inorganic chemistry supports the development of advanced materials used in energy, environmental remediation, catalysis, and industrial technologies. Titanium dioxide remains one of the most widely investigated inorganic compounds because of its optical, catalytic, and semiconductor properties. Research involving TiO₂ contributes to scientific progress through improved material performance and broader technological applications.[2]
Research Profile
The research profile of Hamed Najafi-Ashtisni demonstrates sustained academic productivity with internationally indexed publications and measurable citation performance. His research emphasizes inorganic material synthesis, TiO₂ nanostructures, photocatalytic mechanisms, and characterization techniques that support advancements in materials chemistry and applied inorganic science.[1]
Research Contributions
His published investigations contribute to understanding inorganic oxide materials through studies involving synthesis optimization, photocatalytic efficiency, crystal engineering, and material characterization. These contributions provide valuable scientific knowledge supporting environmental technologies, functional coatings, catalytic applications, and semiconductor material development within inorganic chemistry research.[2]
Publications
The Scopus database records 28 indexed publications authored or co-authored by Hamed Najafi-Ashtisni. These publications collectively address TiO₂ materials, inorganic nanostructures, photocatalytic systems, material synthesis, and related applications, demonstrating continuous scholarly engagement within internationally recognized scientific literature.[1]
Research Impact
A citation count exceeding five hundred and an h-index of fourteen indicate that the published work has received continued scholarly attention. These bibliometric indicators suggest that the research contributes to ongoing discussions in inorganic chemistry, nanotechnology, and advanced materials while supporting future investigations by the wider scientific community.[3]
Award Suitability
Based on documented publication output, citation metrics, and specialization in TiO₂-based inorganic materials, Hamed Najafi-Ashtisni demonstrates qualifications consistent with consideration for the International Research Chemistry Awards. The available scholarly evidence reflects recognized academic productivity, research continuity, and contributions to inorganic chemistry without implying award selection or endorsement.[4]
Conclusion
The documented academic record highlights sustained contributions to inorganic chemistry through research involving titanium dioxide materials and related technologies. Indexed publications, citation performance, and continued research activity collectively demonstrate meaningful scholarly engagement within the international materials and inorganic chemistry research community.[5]
External Links
References
- Elsevier. (n.d.). Scopus Author Details: Hamed Najafi-Ashtisni, Author ID 56609222200. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=56609222200 - Najafi-Ashtiani, H., & Ramzannezhad, A. (2026). The effect of stoichiometry on optical and electrochromic properties of TiOx by HiPIMS. Applied Surface Science, 729, 166276.
https://doi.org/10.1016/j.apsusc.2026.166276 - Najafi-Ashtiani, H., Jing, F., McCulloch, D. G., & Akhavan, B. (2025). ITO-free silver-doped DMD structures: HiPIMS transparent-conductive nano-composite coatings for electrochromic applications. Applied Surface Science, 727, 165775.
https://doi.org/10.1016/j.apsusc.2025.165775 - Ramzannezhad, A., Bahari, A., Hayati, A., & Najafi-Ashtiani, H. (2021). Magnetic nanobiosensors in detecting microalbuminuria (MAU), using Fe3O4 nanorods synthesized via microwave-assisted method. Materials Science and Engineering: B, 268, 115123.
https://doi.org/10.1016/j.mseb.2021.115123 - International Research Chemistry Awards. (n.d.). International Research Chemistry Awards.
https://researchchemistry.org