Abedien Zabardasti | Inorganic Chemistry | Research and Development Excellence Award

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Prof. Abedien Zabardasti | Inorganic Chemistry | Research and Development Excellence Award

Prof. Abedien Zabardasti, Lorestan University, Iran

🌟 Prof. Abedien Zabardasti is a distinguished chemist and Full Professor of Inorganic Chemistry at Lorestan University, Khorramabad, Iran, where he has also served as the Head of the Department of Chemistry since 2019. He earned his PhD in Chemistry (2002) and MSc in Chemistry (1996) from Shiraz University, along with a BSc in Chemistry (1994) from Tehran University. Prof. Zabardasti’s research focuses on molecular interactions, coordination chemistry, nanochemistry, and theoretical chemistry, with an emphasis on porphyrins and metallo-porphyrins. A prolific author, he has made significant contributions to hydrogen storage, catalytic materials, and nanocomposites for environmental applications. Renowned for his expertise in inorganic and organometallic chemistry, his pioneering work continues to shape the field of advanced material sciences.

Publication Profile

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Academic Journey in Inorganic Chemistry

Prof. Abedien Zabardasti is a distinguished Professor of Inorganic Chemistry at Lorestan University, Khorramabad, Iran. He holds a PhD in Chemistry from Shiraz University, where he graduated in 2002, demonstrating exceptional expertise in the field. Prof. Zabardasti also earned his MSc in Chemistry from Shiraz University in 1996 and completed his BSc in Chemistry at Tehran University in 1994. With a strong foundation in chemistry, his academic pursuits and contributions have significantly advanced the discipline, inspiring students and researchers alike. 📘🧪

Research Interests

Prof. Abedien Zabardasti’s research spans diverse and cutting-edge areas of chemistry. His primary focus lies in exploring molecular interactions and advancing the field of coordination chemistry. He is also deeply engaged in the innovative realm of nano chemistry, contributing to the development of nanomaterials with unique properties. Additionally, his expertise extends to theoretical chemistry, where he investigates complex chemical systems. Prof. Zabardasti is particularly interested in porphyrin and metallo porphyrins, delving into their structures and applications in various scientific fields. His work continues to inspire innovation in modern chemistry. 🧪🔗⚛️

Teaching Expertise

Prof. Abedien Zabardasti is a dedicated educator with a wealth of knowledge in several key areas of chemistry. His teaching expertise includes inorganic chemistry, where he imparts a deep understanding of chemical elements and their properties. He is also proficient in organometallic chemistry, exploring compounds containing metal-carbon bonds. Prof. Zabardasti’s lessons in solid-state chemistry provide insights into the structures and behaviors of solids. Additionally, he specializes in the kinetics and mechanisms of transition metal reactions, fostering students’ comprehension of reaction dynamics and processes. His teaching inspires future chemists to excel in these advanced fields. 🧑‍🏫⚗️📚

Research Focus

Prof. Abedien Zabardasti specializes in inorganic and theoretical chemistry with diverse applications in nanomaterials, catalysis, and environmental remediation. His research explores metal-organic frameworks (MOFs), nanocomposites, and porphyrins, addressing challenges in radioactive iodine capture, hydrogen storage, and toxic pollutant removal. He also delves into noncovalent interactions and catalytic performance optimization, contributing to advancements in energy storage and visible-light photocatalysis. Prof. Zabardasti’s interdisciplinary approach bridges experimental studies with theoretical modeling, fostering innovative solutions for environmental and energy-related challenges. His work integrates green chemistry principles to develop sustainable and efficient chemical systems. 🌍⚗️🧪✨

Publication Top Notes

📄 Radioactive iodine capture by hexagonal boron nitride (h-BN) nanosheets in liquid and vapor phases: Experimental and theoretical studies
Year: 2025

📄 Silver (Ag) nanoparticles decorated on magnetic CoFe₂O₄/h-BN nanocomposites for efficient catalytic removal of toxic nitrophenols
Year: 2025

📄 Author Correction: Tailoring topology and bio-interactions of triazine frameworks
Year: 2024

📄 A theoretical modelling of NaBr(H₂)ₙ clusters as an approach in hydrogen gas storage
Year: 2024

📄 Tailoring topology and bio-interactions of triazine frameworks
Year: 2024

📄 H₃PW₁₂O₄₀/MIL-88A(Fe)/MIL-88B(Fe)/NiFe₂O₄ nanocomposite: A new magnetic sorbent based on MOF/MOF hybrid coupled with PW₁₂O₄₀³⁻ polyanions for efficient removal of hazardous …
Cited by: 4
Year: 2024

📄 Construction of novel CoFe₂O₄/h-BN/MIL-53(Al) magnetic nanocomposites for the removal of hazardous antibiotics from water
Cited by: 5
Year: 2024

📄 Flower-like MoS₂ microspheres highly dispersed on CoFe₂O₄/MIL-101(Fe) metal organic framework: A recoverable magnetic catalyst for the reduction of toxic nitroaromatics in …
Cited by: 1
Year: 2024

📄 Construction of magnetic MoS₂/NiFe₂O₄/MIL-101(Fe) hybrid nanostructures for separation of dyes and antibiotics from aqueous media
Cited by: 3
Year: 2024

📄 The noncovalent complexes of nido-C₄B₂H₆ with H₂O, CH₃OH and NH₃ Lewis bases: A theoretical study
Year: 2024

📄 A theoretical modeling of NaBr(H₂)ₙ clusters as a unique approach in hydrogen gas storage
Year: 2023

📄 Cooperation of Peripheral Hydrogen Atoms for the Stabilization of Aachno-pentaborane(11) with Small Molecules: Hydrogen Bonds and Dihydrogen Bonds
Year: 2023

📄 Simultaneous adsorption of ciprofloxacin drug and methyl violet dye on boron nitride nanosheets: Experimental and theoretical insights
Cited by: 5
Year: 2023

📄 Synthesis of p–n heterojunction SrFeO₃₋ₓ/TiO₂ via thermal treatment/hydrolysis precipitation method with enhanced visible‐light activity
Cited by: 7
Year: 2022

📄 A comprehensive research on BiFeO₃/TiO₂ nanocomposite synthesized via thermal treatment/hydrolysis precipitation method
Cited by: 4
Year: 2021

📄 Synthesis of the Novel ZSM-5/NiO/MIL-101(Cr) Zeolite Catalyst Nanocomposite and Its Performance for the Sonodegradation of Organic Dyes in Aqueous Solutions
Cited by: 2
Year: 2021

📄 A NaX zeolite framework containing magnetic MgFe₂O₄/CdO nanoparticles: synthesis, characterization and catalytic performance in the decontamination of 2-chloroethyl phenyl …
Cited by: 2
Year: 2021

📄 The formation of H···X hydrogen bond, C···X carbon-halide or Si···X tetrel bonds on the silylene-halogen dimers (X = F or Cl): Intermolecular strength, molecular orbital …
Cited by: 5
Year: 2020

📄 Enhanced visible light activity of EuFeO₃/TiO₂ nanocomposites prepared by thermal treatment–hydrolysis precipitation method
Cited by: 13
Year: 2020

Conclusion

Prof. Zabardasti’s leadership in the academic field, combined with his impactful research on nanomaterials, hydrogen storage, and environmental chemistry, establishes him as a strong candidate for the Research for Research and Development Excellence Award. His prolific publication record, especially in high-impact journals, and his significant contributions to both theoretical and practical chemistry make him a recognized expert in his field.