Asrafusjaman | Advanced Material | Best Researcher Award

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Asrafusjaman | Advanced Material | Best Researcher Award

Mr. Md Asrafusjaman, City University, Bangladesh.

Md Ashrafuzzaman is a dedicated physics academic and researcher specializing in Density Functional Theory (DFT) and material characterization. As an Assistant Professor at City University, Dhaka, he focuses on semiconductors, superconductors, and solar cell fabrication, exploring their mechanical, optical, and thermodynamic properties. With extensive teaching experience, he has mentored students, conducted computational simulations, and contributed to peer-reviewed research. His expertise spans advanced materials and theoretical modeling, and he actively engages in curriculum development, workshops, and science outreach programs. Passionate about innovation, he remains committed to advancing physics knowledge and inspiring future scientists.Β πŸ”¬πŸ“–βœ¨

Publication Profiles

Orcid

Education & ExperienceΒ πŸŽ“πŸ’Ό

πŸ“ŒΒ Education:

  • πŸ›οΈΒ Master of Philosophy (MPhil) in Physics – Bangladesh University of Engineering and Technology (BUET) (2017–2023)
  • πŸ“–Β M.Sc. in Physics – Jagannath University, Dhaka (2012–2013)
  • πŸŽ“Β B.Sc. (Hons) in Physics – Jagannath University, Dhaka (2009–2012)

πŸ“ŒΒ Work Experience:

  • πŸ‘¨β€πŸ«Β Assistant Professor (Physics) – City University, Dhaka (2017–Present)
  • 🏫 Adjunct Faculty – University of Information Technology & Sciences (UITS), Dhaka (2023)
  • πŸ”¬Β Research Assistant – Bangladesh University of Engineering and Technology (BUET) (2022–2023)

Summary Suitability

Dr. Md Asrafuzzaman is a distinguished researcher and academic in condensed matter physics, specializing in density functional theory (DFT) and material characterization. His groundbreaking work on semiconductors, superconductors, and solar cell fabrication has significantly advanced the understanding of material properties. His recent research, “A Comprehensive DFT Study of the Physical and Superconducting Properties of Chiral Noncentrosymmetric TaRhβ‚‚Bβ‚‚ and NbRhβ‚‚Bβ‚‚,” has provided valuable insights into the pressure-dependent superconducting mechanisms of these materials. His contributions to theoretical modeling and computational physics, alongside his commitment to academic mentorship, make him a deserving recipient of the Best Researcher Award.

Professional DevelopmentΒ  πŸ“šπŸ”

Md Ashrafuzzaman has actively engaged in professional development through research, teaching, and scientific collaboration. His expertise in DFT-based computational simulations has led to valuable insights into semiconductors and superconductors. He has developed and refined curricula, participated in academic committees, and mentored students in research projects. Additionally, he has led workshops, seminars, and outreach programs to enhance physics education. With proficiency in various computational and analytical tools, he continuously integrates innovative methodologies into his research and teaching. Passionate about fostering scientific knowledge, he remains committed to advancing physics and contributing to the academic community.Β πŸ“‘πŸ“ŠπŸ§ͺ

Research Focus

Md Ashrafuzzaman’s research is centered on advanced materials, with a particular focus on semiconductors, superconductors, and solar cell fabrication. His work explores the mechanical, optical, and thermodynamic properties of materials using Density Functional Theory (DFT) and computational simulations. He has contributed to the study of chiral noncentrosymmetric compounds, analyzing their superconducting behavior under varying pressure conditions. Additionally, he investigates organic-inorganic perovskites and novel materials for energy applications. His interdisciplinary research integrates theoretical physics with experimental validation, bridging gaps between computational modeling and practical applications in modern technology.Β βš‘πŸ“‘πŸ› οΈ

Publications Top Noted

  • 2024: “First-principles pressure dependent investigation of the physical and superconducting properties of ThCrβ‚‚Siβ‚‚-type superconductors SrPdβ‚‚Xβ‚‚” – 2 citations
  • 2024: “Comparative Study of the Mechanical, Electronic, Optical and Photocatalytic properties of AGeX₃ (A= Cs, K and Rb; X = Cl, Br and I) Perovskite. By DFT Simulation” – 4 citations
  • 2023: “Investigation of the influence of pressure on the physical properties and superconducting transition temperature of chiral noncentrosymmetric TaRhβ‚‚Bβ‚‚ and NbRhβ‚‚Bβ‚‚” – 8 citations
  • 2023: “Pressure-induced semiconductor to the metallic transition of monoclinic KCaβ‚‚Nb₃O₁₀ layered perovskite: A theoretical DFT insight” – 5 citations
  • 2021: “Characterization analysis of textured and diffused Monocrystalline Silicon wafer” – 3 citations
  • 2016: “Monocrystalline Silicon solar cell Fabrication in Bangladesh” – 6 citations
  • 2015: “Study and Fabrication of Crystalline Silicon Solar Cell in Bangladesh; Using Thermal Diffusion Technique” – 7 citations

Lin Ge | Advanced Ceramics | Best Researcher Award

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Lin Ge | Advanced Ceramics | Best Researcher Award

Dr. Lin Ge , Best Researcher Award , China.

Dr. Lin Ge is an Associate Professor and Subdean at the College of Materials Science and Engineering, Nanjing Tech University, China. He earned his academic degrees from Nanjing Tech University and was a visiting scholar and postdoctoral researcher at Nanyang Technological University. Specializing in Solid Oxide Cells, Dr. Ge has authored over 70 publications in prestigious journals and holds multiple patents. He has led several national and provincial research projects and serves on editorial boards forΒ Journal of Advanced CeramicsΒ andΒ Advanced Ceramics. Additionally, he is a council member of the Special Ceramics Branch of the Chinese Ceramic Society.Β πŸ†πŸ”¬.

Publication Profile

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Scopus

Education & ExperienceΒ πŸŽ“πŸ“–

βœ…Β Academic Degrees: Obtained fromΒ Nanjing Tech UniversityΒ πŸŽ“πŸ›οΈ
βœ…Β Postdoctoral Researcher:Β Nanyang Technological University, SingaporeΒ πŸ«πŸ”¬
βœ…Β Visiting Scholar:Β Nanyang Technological UniversityΒ πŸŒπŸ“š
βœ…Β Current Role:Β Associate Professor & SubdeanΒ atΒ Nanjing Tech UniversityΒ πŸ‘¨β€πŸ«πŸ”¬
βœ…Β Editorial Board Member:Β Journal of Advanced Ceramics & Advanced CeramicsΒ πŸ“–πŸ“
βœ…Β Council Member:Β Special Ceramics Branch, Chinese Ceramic SocietyΒ βš™οΈπŸ†

Suitability Summary

Dr. Lin Ge, Associate Professor and Subdean of the College of Materials Science and Engineering at Nanjing Tech University, China, is a distinguished researcher in the field of Solid Oxide Cells and advanced ceramics, making him an outstanding candidate for the Best Researcher Award. With a prolific research career, he has made groundbreaking contributions to energy conversion and storage technologies, authoring over 70 high-impact scientific publications in renowned journals such as Advanced Functional Materials, Small, Applied Catalysis B: Environmental, Journal of Materials Chemistry A, Journal of Advanced Ceramics, and more. His research has significantly advanced the understanding and development of high-performance solid oxide fuel cells and electrolysis cells, pushing the boundaries of sustainable energy solutions.

Professional DevelopmentΒ  πŸš€πŸ”¬

Dr. Lin Ge has played a pivotal role in advancingΒ Solid Oxide CellsΒ research, contributing overΒ 70 high-impact publicationsΒ in journals such asΒ Advanced Functional Materials, Small, and Applied Catalysis B-Environ. He holds multipleΒ authorized invention patentsΒ and has led prestigious research grants, includingΒ China’s National Key Research & Development Program and the National Natural Science Foundation. In addition to his editorial responsibilities, Dr. Ge actively participates inΒ scientific committeesΒ and international conferences, fostering collaborations inΒ ceramic materials and energy research. His commitment to academia and technological innovation has positioned him as a leading expert inΒ advanced ceramics and electrochemical energy systems.Β πŸ”‹πŸ›οΈ.

Research FocusΒ  πŸ”¬βš‘

Dr. Lin Ge’s research primarily focuses onΒ Solid Oxide Cells (SOCs), includingΒ Solid Oxide Fuel Cells (SOFCs) and Solid Oxide Electrolysis Cells (SOECs), which are crucial forΒ renewable energy conversion and storage. His work aims to enhanceΒ electrode materials, electrolyte performance, and energy efficiencyΒ to develop next-generationΒ ceramic-based energy systems. He explores advancedΒ ceramic materials, electrochemical reactions, and catalytic propertiesΒ to improveΒ fuel flexibility, durability, and cost-effectiveness. Through cutting-edge research inΒ electrochemical energy storage and conversion, Dr. Ge contributes significantly toΒ sustainable energy solutions, hydrogen production, and environmental protection technologies.Β πŸŒ±πŸ”‹βš™οΈ.

Β Awards & HonorsΒ πŸ†πŸŽ–οΈ

πŸ…Β Multiple authorized invention patentsΒ inΒ Solid Oxide Cells & Ceramic MaterialsΒ βš™οΈπŸ”¬
πŸ…Β Principal InvestigatorΒ forΒ National Key Research & Development Program of ChinaΒ πŸ‡¨πŸ‡³πŸ”¬
πŸ…Β National Natural Science Foundation of China Grant RecipientΒ πŸ“œπŸ’‘
πŸ…Β Natural Science Foundation of Jiangsu Province Research FundingΒ πŸ›οΈπŸ“–
πŸ…Β China Postdoctoral Science Foundation FellowshipΒ πŸŽ“πŸ”
πŸ…Β Editorial Board Member – Journal of Advanced Ceramics & Advanced CeramicsΒ πŸ“–πŸ†
πŸ…Β Council Member – Special Ceramics Branch, Chinese Ceramic SocietyΒ βš™οΈπŸ“š.

Publication Top Notes

  • “Tailoring the catalytic activity of PrBaFeβ‚‚Oβ‚…+Ξ΄ cathode material with non-transition metal In-doping for solid oxide fuel cells” – J. Eur. Ceram. Soc.,Β 2025, Cited by:Β 0Β πŸ“‘
  • “Superior Active and Durable Air Electrode for Protonic Ceramic Cells by Metal‐Oxide Bond Engineering” – Small,Β 2025, Cited by:Β 0Β πŸ“˜
  • “Anionic and cationic co-doping to enhance oxygen transport property of Biβ‚€.β‚…Srβ‚€.β‚…FeO₃-Ξ΄ for reversible solid oxide cells” – Chem. Eng. J.,Β 2024, Cited by:Β 2Β πŸ“—
  • “Two birds with one stone: Benefits of sintering additives on protonic ceramic fuel cell electrolyte SrSnβ‚€.β‚ˆScβ‚€.β‚‚O₃-Ξ΄” – Ceram. Int.,Β 2024, Cited by:Β 1Β πŸ“™
  • “Co-free and Sr-free double-perovskite oxide PrBaFe₁.₉Nbβ‚€.₁Oβ‚…+Ξ΄ as a potential electrode material for SOFCs” – Ionics,Β 2024, Cited by:Β 0Β πŸ“–
  • “A novel protonic ceramic fuel cell with SrSnβ‚€.β‚ˆScβ‚€.β‚‚O₃-Ξ΄ electrolyte” – J. Eur. Ceram. Soc.,Β 2024, Cited by:Β 2Β πŸ“•.