Dr. Fahime Vetr | Chemistry and Materials Science | Best Researcher Award

Researcher | University of Guilan | Iran

Dr. Fahime Vetr is an accomplished researcher in the Chemical Sciences currently affiliated with the University of Guilan, Iran, whose academic credentials include a doctoral degree (Ph.D.) in Chemistry from a well-recognized institution, with her Ph.D. work focusing on catalysis and materials chemistry; she holds further degrees (M.Sc., B.Sc.) in Chemistry from reputed universities. Professionally, she has worked as a faculty member in the Department of Chemistry, University of Guilan, contributing to teaching, supervising students, and leading research projects that combine experimental synthesis of nanomaterials, catalytic activity studies, sensor development and environmental applications. Her research interests cover nano-structured catalysts, peroxidase-like activity, metal oxide spinel materials, colorimetric sensing, and applied organometallic chemistry; she has developed skills in advanced materials characterization (e.g. XRD, TEM/SEM, spectroscopy), catalytic assay protocols, sensor design, computational modelling (as applicable), experimental design, and interdisciplinary collaboration. In her scholarly output, Dr. Fahime Vetr has authored 4 documents and accrued 81 citations, with a Scopus h-index of 2, indicating an early but promising citation impact. Her awards and honours include (from public records) recognition via scientific index rankings (e.g. AD Scientific Index), possibly internal university awards, and leadership in conference presentations and national projects (for example participation and lead roles in national conferences on zeolite and catalysis). She has also been engaged in awarding peer review and collaborative work. From these, it is clear Dr. Fahime Vetr has both substantial expertise and growing influence in her field, combining strong technical skills, increasing publication metrics, and visibility in her disciplinary community. In conclusion, Dr. Fahime Vetr is a researcher with solid foundation and upward trajectory: her interdisciplinary approach, demonstrated skills in nanomaterials and catalytic chemistry, her growing citation record and authorship, and her involvement in both experimental and applied research, suggest that she is well-positioned to make further contributions in high-impact journals, to expand international collaboration, and to assume leadership roles in her field globally.

Featured Publications

Oxidation of o-phenylenediamine to 2,3-diaminophenazine in the presence of cubic ferrites MFe₂O₄ (M = Mn, Co, Ni, Zn) and the application in colorimetric detection of H₂O₂ — 2018 — citations

Mesoporous MnCo₂O₄ with efficient peroxidase mimetic activity for detection of H₂O₂ — 2018 — citation count

An Efficient Mesoporous MnCo₂O₄ Catalyst with peroxidase-like activity — 2018 — citation count

Mehdi SALEM | Chemistry and Materials Science | Best Researcher Award

Dr Mehdi SALEM, IMT Mines Albi, France

Dr. Mehdi Salem appears to be an excellent candidate for the Best Researcher Award due to his significant contributions in materials science and mechanical engineering, specifically in areas like thermal fatigue, high-temperature corrosion, and additive manufacturing. Below are key factors supporting his suitability:

Publication profile

google scholar

Strong Academic Background

Dr. Salem holds a Doctorate in Mechanical Engineering (2009) from Université Paul Sabatier de Toulouse, with prior degrees in materials science and general engineering. His academic foundation is rooted in prestigious institutions, reflecting his depth in research capabilities.

Professional Experience

With over a decade of experience as a research engineer at Armines – IMT Mines Albi-Carmaux and extensive post-doctoral work, Dr. Salem’s professional career focuses on high-impact research in material fatigue, metal forming processes, and additive manufacturing. His roles as a lecturer further demonstrate his academic leadership.

Expertise and Technical Contributions

His expertise spans advanced topics such as thermal fatigue, corrosion, residual stress evaluation, and additive manufacturing. His technical skills in simulation (e.g., MEF), microstructural analysis, and materials testing position him as a leading researcher in his field.

Publications and Impact

Dr. Salem’s publications, such as his work on thermal fatigue analysis and residual stresses in selective laser melting, have made a significant contribution to mechanical engineering and materials science, with citations demonstrating the relevance of his research. His published papers in top-tier journals like International Journal of Fatigue and Additive Manufacturing have garnered considerable citations, reflecting the impact of his research on both academic and industrial applications.

Multidisciplinary Collaboration

Collaborating with both academic and industrial entities, his research has addressed real-world challenges, such as improving machining quality and enhancing the durability of automotive components. His work on the effect of doum palm fibers and aluminizing on thermal fatigue demonstrates innovative problem-solving in diverse materials.

Research focus

M. Salem’s research primarily focuses on thermal fatigue, additive manufacturing, and composite materials. His work spans analyzing thermal fatigue in automotive diesel pistons and hot work tool steels to improving additive manufacturing processes like selective laser melting and cold metal transfer. He also explores the mechanical and thermal properties of materials, including aluminum alloys and gypsum mortars reinforced with natural fibers. Another key aspect of his research involves developing innovative tools to enhance machining quality and reduce harmful particulate dispersion in composite materials. 🔧🛠️🔥🌡️📊

Conclusion

Dr. Salem’s deep expertise, demonstrated impact through highly cited publications, and his significant technical achievements in thermal fatigue, additive manufacturing, and residual stress analysis make him a standout candidate for the Best Researcher Award. His ongoing contributions to both academic research and industrial applications exemplify his leadership in the field of materials science.