Mohammad Alkaseem | Material Science | Research Excellence Award

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Dr. Mohammad Alkaseem | Material Science | Material science

Owlstone Medical | United Kingdom

Dr. Mohammad Alkaseem is an accomplished materials and analytical scientist whose research bridges material science, surface engineering, and applied photocatalysis with strong industrial relevance. His scholarly work focuses on hybrid organic–inorganic coatings, plasma electrolytic oxidation (PEO), corrosion-resistant magnesium alloys, photocatalytic nanomaterials, and functional polymer–metal interfaces, delivering solutions for environmental remediation, durability enhancement, and advanced material performance. With 17 Scopus-indexed publications, 284 citations, and an h-index of 9, his research demonstrates consistent impact in high-quality journals such as Chemical Engineering Journal, Advanced Composites and Hybrid Materials (Nature), Composites Part B, Journal of Magnesium and Alloys, and Surfaces and Interfaces. Alongside academic contributions, his professional research profile reflects strong expertise in advanced analytical techniques, VOC profiling, mass spectrometry, and translational materials research, positioning him as a notable contributor to applied material science and industrial innovation.

Citation Metrics (Scopus)

300

240

180

120

60

0

Citations 284

Documents 17

h-index
9


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Featured Publications

Vikram Raja Jothi | Material Science | Best Researcher Award

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Dr. Vikram Raja Jothi | Material Science | Best Researcher Award

Karlsruhe Institute of Technology | Germany

Dr. Vikram Raja Jothi is an accomplished materials scientist and researcher specializing in physical and mechanical metallurgy, additive manufacturing, and high-temperature alloy design. He earned his Ph.D. and M.Tech (Res) in Materials Engineering from the Indian Institute of Science, Bangalore, and holds a B.Tech in Metallurgical and Materials Engineering from IIT Madras. Currently an Alexander von Humboldt Postdoctoral Fellow at the Karlsruhe Institute of Technology, Germany, he has also worked as a Postdoctoral Research Fellow at the University of Michigan, USA. His research explores superalloys, refractory high-entropy alloys, creep behavior, and microstructural evolution in advanced materials. Dr. Vikram Raja Jothi has published extensively in reputed journals such as Scripta Materialia, Acta Materialia, and Advanced Engineering Materials, and has delivered invited talks at IIT Bombay and BARC. Recognized with prestigious awards and fellowships from SERB, CSIR, and IIM, he continues to advance innovative research in high-performance materials engineering.

Profile: Google Scholar

Featured Publications

Vikram, R. J., Sen, S., Yang, L., Eusterholz, M. K., Radi, A., Schliephake, D., … Heilmaier, M. (2026). Ultra-slow coarsening in precipitation-strengthened refractory high-entropy alloys. Scripta Materialia, 271, 117026.

Dash, K., Vikram, R. J., Wilde, G., & Phanikumar, G. (2025). Processing and properties of high entropy alloy multilayer laminates: A deformation study. Materials Chemistry and Physics, 131520.

Sasi, A., Vikram, R. J., & Dash, K. (2025). Corrosion and oxidation behavior of high entropy alloys in extreme and harsh environments: A perspective on steam corrosion. Journal of Applied Physics, 138(2).

Schliephake, D., Ramdoss, S. R., Vikram, R. J., Falcão, G., Galgon, F., Thota, H., … Heilmaier, M. (2025). Microstructure and mechanical properties of a laser-based directed energy deposited Mo-Si-Ti alloy. Journal of Materials Science, 1–15.

Yang, L., Sen, S., Schliephake, D., Vikram, R. J., Laube, S., Pramanik, A., … Heilmaier, M. (2025). Creep behavior of a precipitation-strengthened A2-B2 refractory high entropy alloy. Acta Materialia, 288, 120827.

Vikram, R. J., Reddy, S. T., Kirchner, A., Klöden, B., & Suwas, S. (2025). Monotonic tension and creep response of electron-beam powder bed fusion processed IN718 superalloy: Role of orthorhombic Ni3Nb δ-phase at grain boundaries. Materials Science and Engineering: A, 925, 147728.

Hairui Bai | Materials Science | Best Researcher Award

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Prof. Hairui Bai | Materials Science | Best Researcher Award

Shandong Laboratory of Advanced Materials and Green Manufacturing | China

Prof. Hairui Bai is an emerging researcher specializing in advanced materials and green manufacturing. He obtained his PhD in Materials Science and Engineering from Tongji University in 2022, focusing on PVDF-based energy storage nanocomposites, following a Master’s degree from Liaocheng University on ZnO-Bi2O3-based varistor ceramics. Since 2022, he has been contributing to the Shandong Laboratory of Advanced Materials and Green Manufacturing at Yantai, where his research spans polyimide, polyurethanes, multifunctional ceramics, and polymer-based nanocomposites. His technical expertise covers material analysis methods including XRD, SEM, TEM, FT-IR, XPS, AFM, dielectric and ferroelectric testing, and advanced computational modeling using COMSOL and MATLAB. Prof. Hairui Bai’s research highlights include the design of high-discharge energy density nanocomposites through interfacial polarization engineering and gradient architectures, achieving outstanding energy storage performance. He has published over ten high-impact academic papers in prestigious journals such as Advanced Functional Materials, Chemical Engineering Journal, Composites Science and Technology, Small, and Journal of Materials Chemistry A. Alongside his publications, he holds multiple patents in polymer-based composites, nanomaterials, and organic compounds, underscoring his innovation capacity. Although his current metrics indicate 1 citation, 2 documents, and an h-index of 1, his rapidly growing contributions and multidisciplinary skill set highlight strong potential for impactful future research in sustainable energy storage and multifunctional electronic materials.

Profile: Scopus

Featured Publications

Bai, H., Bi, S., Cui, F., et al. (2025). A new strategy for synthesis design of luminescent multifunctional ZnO-Bi2O3 based varistor ceramics. Materials Letters.

Victor Zhuravlev | Materials Science | Best Researcher Award

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Dr. Victor Zhuravlev | Materials Science | Best Researcher Award

Dr. Victor Zhuravlev | Institute of Solid State Chemistry UB RAS | Russia

Dr. Viktor Zhuravlev is a distinguished chemist and Head of the Laboratory of REE Compounds Chemistry at the Institute of Solid State Chemistry, Ural Branch of the Russian Academy of Sciences in Yekaterinburg, Russia. He has dedicated his career to advancing the field of solid-state chemistry with a particular focus on the synthesis of simple and complex oxides in self-propagating high-temperature synthesis reactions, the theory of iso- and heterovalent substitutions, and the development of high-entropy oxides. An accomplished scholar, he has authored more than one hundred fifty-five research articles, including a significant body of work indexed in Scopus and Web of Science. Dr. Zhuravlev is actively engaged as a reviewer for leading international journals such as Materials Today Chemistry, Inorganic Chemistry, Journal of Alloys and Compounds, Ceramics International, and others. Educated at Ural State University, he continues to contribute to the global scientific community through innovative research and academic leadership.

Publication Profile

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Education and Qualifications

Dr. Victor Zhuravlev pursued his education in chemistry at Ural State University named after A.M. Gorky in Sverdlovsk, Russia, where he laid the foundation for his distinguished scientific career. His academic journey at this renowned institution equipped him with a deep understanding of chemical sciences, fostering his passion for research in solid-state chemistry and materials science. From the beginning of his studies, he showed a keen interest in the synthesis of oxides, substitution theories, and the chemistry of rare earth elements, areas that later became the cornerstone of his professional achievements. His continuous association with the field of chemistry from his university days to the present highlights a lifetime of dedication to advancing knowledge and innovation. The education and training he received at Ural State University not only shaped his scientific outlook but also prepared him to lead pioneering research and contribute significantly to global advancements in chemistry

Employment Profile

Dr. Victor Zhuravlev is a prominent scientist serving as the Head of the Laboratory of REE Compounds Chemistry at the Institute of Solid State Chemistry, Ural Branch of the Russian Academy of Sciences, located in Yekaterinburg, Russia. In this esteemed role, he has dedicated his expertise to advancing the understanding of rare earth element compounds and their chemical properties, particularly through innovative approaches to oxide synthesis and the study of high-entropy oxides. His employment at the institute reflects a long-standing commitment to scientific excellence and collaborative research that contributes significantly to the broader field of solid-state chemistry. Based at the St. Pervomayskaya 91 facility, Dr. Zhuravlev leads research teams, mentors emerging scientists, and actively participates in the global exchange of knowledge through publications and peer review activities. His career at the Ural Branch stands as a testament to his leadership and impactful contributions to chemistry.

Research Focus

Dr. Victor Zhuravlev’s research focus lies primarily within the domain of solid-state chemistry and advanced materials science, with particular emphasis on the synthesis and characterization of oxides and ceramic composites. His work addresses the development of rare earth element compounds, high-entropy oxides, zircon and alumina-based ceramics, and nickel spinel composites, using solution combustion synthesis and related methods. He explores the effects of sintering aids, additives, and structural modifications on the thermal stability, mechanical strength, and photocatalytic performance of these materials, seeking to enhance their efficiency for technological applications. His investigations also extend to the analysis of phase composition, structural transformations, and solid solution formation in ceramic systems, which are crucial for advancing energy, environmental, and industrial material technologies. By combining theoretical insights with practical synthesis techniques, Dr. Zhuravlev contributes significantly to innovations in functional materials, demonstrating leadership in rare earth chemistry and advanced ceramics research on a global scale.

Publication Top Notes

Effect of basalt aids on the thermal stability and mechanical properties of zircon composites produced by slip casting
Year: 2025

Phase Composition of Ni1–2хMnхCoхOy Precursors, where x = 0–0.5, Obtained by Solution Combustion Synthesis
Year: 2025

Production of α–Al2O3–3YSZ Porous Ceramics with α(γ)–Al2O3 Additive
Year: 2025

Analysis of the Formation of Solid Solutions of REE Orthochromites
Year: 2024

Effect of Sintering Aids Synthesized via Combustion of Aluminum Nitrates on Properties of Al2O3–3YSZ Ceramics
Year: 2024

The study of photocatalytic characteristics of NiAl2O4 spinel and NiO/Al2O3 composites obtained in SCS reactions with glycine
Year: 2024
Citations: 3

Simultaneous Thermal Analysis of Lithium Aluminate SCS-Precursors Produced with Different Fuels
Year: 2023
Citations: 1

Conclusion

Dr. Victor Zhuravlev stands as a highly deserving candidate for the Research for Best Researcher Award. His exceptional contributions to solid-state chemistry, strong publication record, and active engagement in the scientific community make him a leading figure in his field. With enhanced international collaborations, his global influence could be even more impactful.

Haigen Gao | Design of Materials | Best Researcher Award

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Haigen Gao | Design of Materials | Best Researcher Award

Professor at Panzhihua University, China

🔬 Professor Haigen Gao is a renowned material scientist at Panzhihua University, serving as the chief scientist on a prestigious project funded by the National Natural Science Foundation of China . His research focuses on the structural design of advanced materials using the powerful strategy of density functional theory (DFT) 🧪, contributing significantly to theoretical and computational materials science. With a deep passion for innovation and discovery, Prof. Gao’s work paves the way for next-generation materials with tailored properties ⚙️, enhancing both academic understanding and practical applications in materials engineering 🌐.

Publication Profile

Scopus

Academic Background

Professor Haigen Gao is a distinguished expert in material science at Panzhihua University 🏫. He currently serves as the chief scientist for a major research project funded by the National Natural Science Foundation of China , highlighting his leadership and academic excellence. His research focuses on the structural design of novel materials using density functional theory (DFT) 🧪, a cutting-edge computational method in material science. Through his innovative work, Professor Gao contributes to the development of next-generation materials with enhanced performance ⚙️, playing a vital role in both scientific advancement and industrial application 🌐.

Professional Experience

Professor Haigen Gao is a prominent researcher in material science at Panzhihua University 🏫. He plays a leading role as the chief scientist in a major project supported by the National Natural Science Foundation of China . His primary research interest lies in the structural design of advanced materials using the density functional theory (DFT) method 🧪, a powerful tool in theoretical and computational materials science. Through his groundbreaking work, Professor Gao is contributing to the discovery of high-performance materials ⚙️, fostering scientific progress and enabling innovative applications across various technological fields 🌍.

Research Focus

Professor Haigen Gao’s primary research interest lies in the structural design of new and innovative materials using the powerful strategy of density functional theory (DFT) 🧪. This computational method allows for precise analysis and prediction of material properties at the atomic level, enabling the creation of materials with tailored functionalities ⚙️. His work contributes significantly to the advancement of material science by offering insights into the behavior and potential of new compounds 🔬. Through DFT, Professor Gao is paving the way for breakthroughs in energy, electronics, and industrial applications 🌐, driving progress in both science and technology.

Publication Top Notes

📘 A first-principles study on structural stability and magnetoelectric coupling of two-dimensional BaTiO₃ ultrathin film with Cr and Cu substituting Ti site

📅 Year: 2024
📚 Journal: APL Materials
📈 Citations: 109 

First-principles study on influences of surface and thickness on magnetic and ferroelectric properties of quasi-two-dimensional BaTiO3 (001) ultrathin film doped with Ni at Ti site

First-Principles Study on Evolution of Magnetic Domain in Two-Dimensional BaTiO3 Ultrathin Film Doped with Co under Electric Field

A First-Principles Study on Structural Stability and Magnetoelectric Coupling of Two-Dimensional Batio3 Ultrathin Film with Cr and Cu Substituting Ti

 

Conclusion

Based on the available information, Professor Haigen Gao appears to be a strong candidate for the Best Researcher Award. As the chief scientist of a prestigious project funded by the National Natural Science Foundation of China , he demonstrates national-level research leadership. His expertise in density functional theory (DFT) 🧪—a key method in computational materials science—positions him at the forefront of structural design of advanced materials ⚙️. If supported by a solid record of high-impact publications, strong citation metrics, meaningful research outcomes, international collaborations, and recognition through awards or editorial roles 🏅, Professor Gao would be a highly deserving recipient of this honor.

 

 

Muhammad Junaid | Material science | Best Researcher Award

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Dr. Muhammad Junaid | Material science | Best Researcher Award

Dr. Muhammad Junaid, Islamia University Of Bahawalpur, Pakistan

Dr. Muhammad Junaid is an Assistant Professor at the Institute of Physics, The Superior University Lahore, Multan Campus, Pakistan. He holds a Ph.D. in Semiconductor Nanotechnology from The Islamia University of Bahawalpur. With a strong background in nanomaterials synthesis, his research focuses on photocatalysts for hydrogen production, CO₂ reduction, and water splitting. He has published extensively in high-impact journals and actively contributes as a reviewer and editorial board member. Dr. Junaid has supervised multiple M.Phil. theses and led funded research projects on advanced nanomaterials. His expertise spans metal oxide thin films, graphene synthesis, and biosensors. He has presented at international conferences and authored academic books. Recognized for his contributions, he has received research grants and awards.

Publication Profile

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🎓 Education

Dr. Muhammad Junaid completed his Ph.D. in Semiconductor Nanotechnology (Physics) from The Islamia University Bahawalpur, Pakistan, focusing on metal oxide thin films for water splitting. He earned his M.Phil. in Nanotechnology from UMT Lahore, where he studied Ba-doped SrTiO₃ for hydrogen generation. His M.Sc. in Physics from Bahauddin Zakariya University Multan laid the foundation for his work in semiconductors. He holds a B.Sc. in Physics and Mathematics from Government College Civil Line, Multan. Earlier, he pursued his F.Sc. in Pre-Engineering from BISE Rawalpindi and Matriculation in Science from BISE Mardan, KPK. His education has equipped him with expertise in nanomaterials synthesis, thin films, and renewable energy applications.

👨‍🏫 Experience

Dr. Muhammad Junaid has over a decade of academic and research experience. Since 2020, he has been serving as an Assistant Professor at The Superior University Lahore, Multan Campus, specializing in physics and physical chemistry. Previously, he worked as a Lecturer at The Superior Group of Colleges/University Multan Campus (2015-2020) and Pak-Turk Maarif International Schools and Colleges (2014-2015). He has successfully supervised multiple M.Phil. research projects, focusing on nanomaterials for energy applications. His contributions include leading research on photocatalytic hydrogen generation and biosensors, securing significant research funding, and collaborating on international projects. Dr. Junaid is also an editorial board member and reviewer for prestigious scientific journals.

🏆 Awards & Honors

Dr. Muhammad Junaid has received several prestigious awards for his research and academic contributions. He secured major research grants, including funding from the Higher Education Commission (HEC) Pakistan and collaborative projects with China’s National Natural Science Foundation. He has been recognized as a distinguished researcher for his high-impact publications in renowned journals like the International Journal of Hydrogen Energy and Chemical Physics Letters. He has also received certifications for his editorial and reviewing contributions to journals such as Scientific Reports (Springer Nature) and Physica B Condensed Matter. His excellence in academia is reflected in his role as a mentor, guiding M.Phil. scholars in cutting-edge nanotechnology research.

🔬 Research Focus

Dr. Muhammad Junaid’s research primarily focuses on the development of photocatalysts for CO₂ reduction, water splitting, and hydrogen production. His work involves synthesizing metal oxide-based nanomaterials, including ZnO, NiO, MoO₃, and Ba-doped SrTiO₃, for renewable energy applications. He specializes in thin-film fabrication using techniques like physical vapor deposition (PVD) and sol-gel synthesis. His contributions extend to graphene-based materials, quantum dots, and biosensors for glucose and urea detection. He explores bandgap tailoring to optimize semiconductor efficiency for green energy solutions. His research projects are funded by national and international agencies, emphasizing sustainable energy and environmental applications.

Publication Top Notes

  • “Industry 4.0 enables supply chain resilience and supply chain performance” (2022) – Cited by 195.Google Scholar

  • “Effects of sustainable supply chain integration on green innovation and firm performance” (2022) – Cited by 169.Google Scholar

  • “A neutrosophic AHP and TOPSIS framework for supply chain risk assessment in automotive industry of Pakistan” (2019) – Cited by 116.Google Scholar

  • “Impact of green HRM practices on sustainable performance: mediating role of green innovation, green culture, and green employees’ behavior” (2023) – Cited by 96.Google Scholar+1Google Scholar+1

  • “Nexus between technology enabled supply chain dynamic capabilities, integration, resilience, and sustainable performance: An empirical examination of healthcare organizations” (2023) – Cited by 68.Google Scholar

  • “An empirical examination of sustainable supply chain risk and integration practices: A performance-based evidence from Pakistan” (2019) – Cited by 54.Google Scholar

  • “Relationship between human resource management practices, relationship commitment and sustainable performance” (2020) – Cited by 31.Google Scholar

  • “The role of diffusion of innovation theory towards the adoption of halal meat supply chain” (2023) – Cited by 24.Google Scholar

  • “Corporate governance mechanism and performance of insurers in Pakistan” (2020) – Cited by 18.Google Scholar

  • “Creating a sustainable future through Industry 4.0 technologies: untying the role of circular economy practices and supply chain visibility” (2024) – Cited by 17.Google Scholar

Conclusion 

Dr. Muhammad Junaid’s strong publication record, impactful research, secured research funding, and academic leadership make him a deserving candidate for the Research for Best Researcher Award. His contributions to nanotechnology, renewable energy, and advanced materials are of high significance to the scientific community, aligning well with the award’s criteria.

Wang chengmin | Materials Science | Young Scientist Award

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Dr. wang chengmin | Materials Science | Young Scientist Award

Dr. wang chengmin, Dalian jiaotong university, China

📚 Dr. Wang Chengmin, born in 1983, is a senior engineer and PhD candidate jointly trained by Tsinghua University and Dalian Jiaotong University. With 15 years of expertise in materials science, he specializes in ultra-pure alumina and ultrafine oxides. His innovative contributions in industrializing high-purity alumina using the alcohol aluminum method have advanced China’s materials industry. Dr. Wang has published over ten papers and holds eleven patents. His extensive research in sol-gel technology and catalysis underscores his impact in both academia and industry.

Publication Profile

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Education

🎓 Dr. Wang Chengmin graduated from East China University of Science and Technology in 2006 with a degree in Polymer Materials and Engineering. In 2009, he earned a Master’s degree in Materials Science from Dalian Jiaotong University. Currently, he is pursuing a PhD in Materials Science and Engineering through a joint program at Tsinghua University and Dalian Jiaotong University. His interdisciplinary academic background has equipped him with comprehensive knowledge and expertise in advanced materials research and development.

Experience

🛠️ Dr. Wang Chengmin has accumulated nearly 15 years of experience in research, industrialization, and technology transfer. He led the development of China’s first production line for high-purity alumina using the alcohol aluminum method. His work extends to aluminum-based porous catalysis, ceramics, aerogels, and colloidal materials. With deep expertise in sol-gel technology, Dr. Wang has significantly contributed to the commercialization of innovative materials and advanced manufacturing technologies.

Awards and Honors

🏆 Dr. Wang Chengmin’s impactful research and industrial achievements have earned him recognition in the field of materials science. With 11 authorized invention patents and over 10 research publications, he has established himself as a leader in ultra-pure alumina technology. His contributions to industrialization and technology transfer have been acknowledged through prestigious awards, reflecting his dedication to innovation and excellence in the field.

Research Focus

🔬 Dr. Wang Chengmin’s research focuses on ultra-pure alumina, ultrafine oxides, and sol-gel technology. He specializes in the industrial applications of aluminum-based porous catalysis, ceramics, aerogels, and colloidal materials. His pioneering work in the alcohol aluminum method has propelled advancements in high-purity alumina production. Through continuous exploration in materials science and engineering, Dr. Wang remains committed to developing innovative solutions for industrial challenges.

 

Publication Top Notes

Preparation of Large-Sized Flaky Al<sub>2</sub>O<sub>3</sub> for Thermally Conductive Fillers and Its Formation Mechanisms