Mariana Patrascu l Emergent Technology | Research Excellence Award

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Assoc. Prof. Dr. Mariana Patrascu l Emergent Technology | Research Excellence Award

National University Of Science And Technology Politehnica Bucharest | Romania

Assoc. Prof. Dr. Mariana Patrascu is an expert in applied and fundamental chemical research, specializing in emerging technologies such as plasma, lasers, microwaves, and ultrasounds for sustainable industrial processes. Assoc. Prof. Dr. Mariana Patrascu has extensive professional experience as Associate Professor at UNSTPB and in senior leadership roles as Director General, Technical Director, and R&D Manager across academia and industry. Assoc. Prof. Dr. Mariana Patrascu’s research interests include green chemistry, nanomaterials, biomass valorization, catalytic systems, polymeric and biomaterials, and circular economy solutions. Assoc. Prof. Dr. Mariana Patrascu has led numerous national and European research grants, demonstrating advanced research skills, innovation leadership, and strong contributions to sustainable chemical technologies.

Citation Metrics (Scopus)

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Featured Publications

State, R. N., Ionescu, G., Pătrașcu, M., Volceanov, A., Boldor, D., & Mărculescu, C. (2021).
Twin reactor catalytic assisted pyrolysis for food court waste conversion into high-end chemicals.
Journal of Analytical and Applied Pyrolysis.
DOI: 10.1016/j.jaap.2021.105351
Pătrașcu, M. (2019).
Microwave/Ultrasound-Assisted Synthesis of Zeolitic Structures H-ZSM-5 with Metallic Salts Used in Biomass Pyrolysis.
17th International Conference on Microwave and High Frequency Heating, Valencia, Spain.
Pătrașcu, M., & Mărculescu, C. (2019).
Procedeu de obținere a catalizatorilor zeolitici conținând metal, prin sinteză hidrotermală asistată de microunde și ultrasunete.
Romanian Patent No. 00788/26.11.2019.
Danila, E., Kaya, D. A., Pătrașcu, M., & Kaya, M. A. (2018).
Comparative study of Lavandula angustifolia essential oils obtained by microwave and classical hydrodistillation.
Revista de Chimie.
DOI: 10.37358/rc.18.8.6508
Pătrașcu, M., Radoiu, M., & Pruna, M. (2017).
Microwave treatment for pest control: Coleoptera insects in wooden objects.
Studies in Conservation.
DOI: 10.1080/00393630.2017.1298305

Jibing Chen l Additive Manufacturing | Research Excellence Award

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Assoc. Prof. Dr. Jibing Chen l Additive Manufacturing | Research Excellence Award

Wuhan Polytechnic University | China

Dr. Jibing Chen is a Professor of Advanced Material Preparation & Forming Technology and Director of Material Forming and Control Engineering, with education including a B.E. in Chemical Engineering and Technology and M.S./Ph.D. in Materials Processing Engineering. His professional experience spans leading and participating in national and provincial projects, extensive SCI/EI publications, patents, textbooks, editorial board service, and peer review. Research interests focus on powder and food additive manufacturing (3D printing), electronic packaging, and high-power device reliability. Research skills include materials processing, additive manufacturing, characterization, reliability analysis, and engineering design. His awards and honors include competition mentorship achievements and editorial appointments, reflecting sustained academic impact and leadership.

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Featured Publications

Nusrat Shaheen | Energy Storage Devices | International Data Breakthrough Achievement Award

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Assoc. Prof. Dr. Nusrat Shaheen | Energy Storage Devices | International Data Breakthrough Achievement Award

Qilu Institute of Technology | China

Assoc. Prof. Dr. Nusrat Shaheen is a physicist specializing in condensed matter physics, thermoelectric materials, and energy storage technologies. She earned her PhD in Condensed Matter Physics from Chongqing University, China (2017), following an MSc in Physics from Quaid-i-Azam University, Islamabad, and a BSc in Physics from Bahauddin Zakariya University, Pakistan. She completed two post-doctoral fellowships in China at Xi’an Jiaotong University (2019–2021) and Guangxi University (2021–2023), working on advanced thermoelectric and energy materials. Her academic experience includes serving as Assistant Professor at COMSATS University Islamabad and Lecturer of Physics at a government college in Pakistan. Her research focuses on thermoelectric materials (skutterudites and half-Heuslers), supercapacitors, batteries, fuel cells, and nanomaterial synthesis using hydrothermal, CVD, and solid-state methods. She has extensive expertise in structural, thermal, electrical, and electrochemical characterization. Dr. Shaheen is a recipient of the CSC Scholarship and the International Outstanding Student Award. Her scholarly impact includes 45 documents, an h-index of 17, and approximately 1,346 citations across 1,243 citing documents, reflecting sustained contributions to energy and materials research.

Citation Metrics (Scopus)

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Featured Publications

An ultra-high energy density flexible asymmetric supercapacitor based on hierarchical fabric decorated with 2D bimetallic oxide nanosheets and MOF-derived porous carbon polyhedra

– Journal of Materials Chemistry A, 2019 | Citations: 284
Binary WO₃–ZnO nanostructures supported rGO ternary nanocomposite for visible light driven photocatalytic degradation of methylene blue

– Synthetic Metals, 2020 | Citations: 186
Ag-doped FeCo₂O₄ nanoparticles and their composite with flat 2D reduced graphene oxide sheets for photocatalytic degradation of colored and colorless compounds

– FlatChem, 2022 | Citations: 99
The energy crisis in Pakistan: A possible solution via biomass-based waste

– Journal of Renewable and Sustainable Energy, 2016 | Citations: 99
An efficient genetic algorithm based demand side management scheme for smart grid

– International Conference on Network-Based Information Systems, 2015 | Citations: 98

Sang Soo Shin | Materials Science and Engineering | Research Excellence Award

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Dr. Sang Soo Shin | Materials Science and Engineering | Research Excellence Award

OHSUNG TECH R&D Center | South Korea

Dr. Sang Soo Shin is a materials scientist and engineer specializing in advanced casting, molding, and joining technologies. He earned his Ph.D. in Materials Science and Engineering from Pusan National University in 2016, following an M.S. in Advanced Materials Engineering from Korea University in 2008, and a B.E. in Materials Science and Engineering from Pukyoung National University in 2004. With extensive experience in both academia and applied research, Dr. Shin has contributed to over 20 research and development projects, including initiatives supported by the Ministry of Trade, Industry, and Energy. His research focuses on high-strength lightweight alloys, mechanically workable composites, and innovative joining techniques for industrial applications. He has authored 17 SCI papers and 10 domestic publications, amassing 304 citations from 236 documents and achieving an h-index of 7, reflecting significant impact in his field. Dr. Shin holds eight patents and has been recognized with multiple prestigious awards, including the Korea Engineer Award (2021), commendations from the Korea Industrial Complex Corporation (2023), and the Korean Society of Welding and Joining Engineers Award for Excellence in Presentation (2021). His expertise in materials processing and engineering has contributed to both fundamental research and technological advancements in metallurgy and manufacturing. Dr. Shin continues to drive innovation in materials engineering, bridging academic research with industrial application.

Profile : Scopus

Featured Publication

High-strength Al–Zn–Cu casting alloy with Zn supersaturation: A lightweight alternative to Al-Si and cast iron components , 2025

Chong-Qing Wan | Data Quality Enhancement | Best Researcher Award

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Prof. Chong-Qing Wan | Data Quality Enhancement | Best Researcher Award

Capital Normal University | China

Prof. Chong-Qing Wan is a distinguished professor in the Department of Chemistry at Capital Normal University, Beijing, recognized for his extensive contributions to functional coordination chemistry and framework materials, with a research record comprising 83 scientific documents, an h-index of 24, and 1,987 citations from 1,717 documents. He earned a BA in chemistry from Xinyang Normal University, an MS from Nankai University with research on coordination complexes, and later completed his PhD under Prof. Thomas C. W. Mak at The Chinese University of Hong Kong. His work spans the synthesis, characterization, and application of metal–organic frameworks (MOFs), covalent–organic frameworks (COFs), ionic-liquid-based hybrids, and energy-related materials. He has published impactful studies in Nature Communications, Angewandte Chemie, and Chemistry of Materials, contributing to advances in MOF/COF meltability, glass formation, proton-conductive crystalline ionic liquids, and atomically precise nanoclusters. His research interests include functional coordination complexes, energy-storage materials, photocatalysis, and phase-transition mechanisms in porous frameworks. Throughout his academic career, he has been recognized for high-impact publications and sustained contributions to materials chemistry. Continuing to advance the field through innovative synthesis strategies and collaborative research, he remains a leading figure in framework-based materials and functional molecular systems.

Profiles : Scopus | Orcid

Featured Publications

Xue, W. L., Li, G. Q., Chen, H., Han, Y. C., Feng, L., Gu, X. L., Hu, S. Y., Deng, Y. H., Tan, L., Dove, M. T., Li, W., Zhang, J., Dong, H., Chen, Z., Deng, W. H., Xu, G., & Wan, C.-Q. (2024). Melt-quenched glass formation of a family of metal–carboxylate frameworks. Nature Communications, 15, 2040.*

Gu, X. L., Zhao, L., Sun, J., Cui, X. K., Li, G. Q., Hu, S. Y., Deng, Y. H., Li, Z., Li, K., Wang, H., & Wan, C.-Q. (2024). Synthesis and properties of zwitterionic covalent organic framework (COF): The meltability strategy and processability. Chemistry of Materials, 36, 2674–2684.*

Xue, W.-L., Deng, W.-H., Chen, H., Liu, R.-H., Taylor, J. M., Li, Y.-K., Wang, L., Deng, Y.-H., Li, W.-H., Wen, Y.-Y., Wang, G.-E., Wan, C.-Q., & Xu, G. (2021). MOF-directed synthesis of crystalline ionic liquids with enhanced proton conduction. Angewandte Chemie International Edition, 60, 1290–1297.

Qin, Z., Sharma, S., Wan, C.-Q., Malola, S., Xu, W.-W., Häkkinen, H., & Li, G. (2021). A homoleptic alkynyl-ligated [Au₁₃Ag₁₆L₂₄]³⁻ cluster as a catalytically active eight-electron system. Angewandte Chemie International Edition, 60, 970–975.*

Qin, Z., Zhang, J., Wan, C.-Q., Liu, S., Abroshan, H., Jin, R., & Li, G. (2020). Atomically precise nanoclusters with reversible isomeric transformation for rotary nanomotors. Nature Communications, 11, 6019.*

Ion Tirca | Physicist | Distinguished Scientist Award

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Dr. Ion Tirca | Physicist | Distinguished Scientist Award

University of Craiova | Romania

Dr. Ion Tirca is a physicist and materials science researcher specializing in photonic processing, thin films, and laser–matter interaction. His academic formation includes a bachelor’s degree in mathematics, a master’s degree in physics, a PhD in sciences, and a postdoctoral research program at the University of Craiova, where he also contributed as a project manager in an entrepreneurial education initiative. He has held research positions at the National Institute for Lasers, Plasma and Radiation Physics and at INCESA, focusing on advanced materials, pulsed laser deposition, and optical properties of functional surfaces. Dr. Tirca has authored 7 scientific documents, accumulated 43 citations from 38 citing documents, and holds an h-index of 4, reflecting the visibility and impact of his contributions. His publications in ISI-rated journals address topics such as Mg–Al layered double hydroxide thin films, WO₃ optical behavior, dopant effects, and biocompatible composite coatings. His research interests include laser deposition technologies, optical materials, nanostructures, biomaterials, and condensed matter physics. He has also participated in academic dissemination activities and contributed to interdisciplinary collaborations. Committed to advancing both scientific knowledge and applied research, Dr. Tirca continues to explore innovative photonic techniques for developing next-generation functional materials.

Profile : Scopus

Featured Publications

Tirca, I., Mitran, V., Marascu, V., Brajnicov, S., Ion, V., Stokker-Cheregi, F., Popovici, I. A., Cimpean, A., Dinca, V., & Dinescu, M. (2017). In vitro testing of curcumin-based composite coatings as antitumoral systems against osteosarcoma cells. Applied Surface Science, 425, 1040–1051.

Vlad, A., Birjega, R., Tirca, I., Matei, A., Mardare, C. C., Hassel, A. W., Nedelcea, A., Dinescu, M., & Zavoianu, R. (2018). Pulsed laser deposition of functionalized Mg–Al layered double hydroxide thin films. Applied Physics A, 124, 152.

Tirca, I., Boerasu, I., Radu, M.-S., & Osiac, M. (2021). Refractive index of WO₃ thin films grown under various temperatures determined by the Swanepoel method. Physica B: Condensed Matter, 620, 413266.

Osiac, M., Boerasu, I., Radu, M.-S., Jigau, M., & Tirca, I. (2021). Influence of iron as a dopant on the refractive index of WO₃. Materials, 14(19), 5845.

Osiac, M., Satulu, V., Jigau, M., Tirca, I., & Tudorascu, I. R. (2023). Influence of substrate temperature on the structural and chemical properties of iron-doped WO₃ films prepared by PLD. Applied Physics A, 129, 544.

Jiabao Li | Engineering | Research Excellence Award

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Mr. Jiabao Li | Engineering | Research Excellence Award

Yangzhou University | China

Mr. Jiabao Li is a materials scientist and electrochemical energy researcher specializing in sodium-ion batteries and capacitive deionization, with particular focus on electrode and electrolyte design for extreme temperature environments. He earned his bachelor’s and master’s degrees in applied chemistry from Anhui Agricultural University, followed by a Ph.D. in materials and optoelectronics from East China Normal University, including a joint research period at the Georgia Institute of Technology. Since completing his doctoral work, he has served as a lecturer and researcher, leading multiple competitive research projects in materials innovation and energy-storage systems. His work integrates experimental synthesis with computational tools such as DFT modeling and molecular dynamics simulations to advance high-performance sodium-ion storage materials. He has published 98 scientific documents, accumulating 5,410 citations across 4,235 referencing documents, with an h-index of 40, reflecting significant global impact in the fields of battery chemistry and electrochemical engineering. His awards include national and institutional scholarships that recognize excellence in scientific research and academic achievement. Overall, his career demonstrates sustained contributions to next-generation energy-storage technologies and the advancement of robust sodium-ion systems for low-temperature and high-efficiency applications.

Profile : Scopus

Featured Publications

Unveiling the neglected role of oxygen doping in nitrogen-doped carbon for enhanced capacitive deionization performance. Nature Communications, 2025.

Rapidly evaluating electrochemical performance of transition metal disulfides for lithium-ion batteries using machine learning classifier. Chemical Engineering Journal, 2025.

Ionic conductor-armored Li₃V₂(PO₄)₃: a robust electrode for lithium capture via capacitive desalination. Chemical Communications, 2025.

Anion screening in ether-based electrolytes for boosted sodium storage at low temperature. Energy Storage Materials, 2025.

Coordination-tuned Na₃V₂(PO₄)₃ cathodes for low-temperature sodium-ion batteries. Chemical Communications, 2025.

 

Noriaki Hirota | Material | Excellence in Research

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Dr. Noriaki Hirota | Material | Excellence in Research

Japan Atomic Energy Agency | Japan

Dr. Noriaki Hirota is an accomplished materials scientist and Associate Deputy Director at the Japan Atomic Energy Agency, where he contributes extensively to research in structural and functional materials within the nuclear energy sector. He earned both his master’s and Ph.D. degrees in Materials Science from the Institute of Science Tokyo, with his doctoral research completed in 2025. With over 19 years of professional experience, Dr. Hirota has worked at the intersection of metallurgy, corrosion science, and mechanical engineering. During his tenure at Japan Steel Works, he developed high-performance turbine rotor materials for thermal power generation and advanced stainless steel forging processes. His subsequent work at the Japan Atomic Energy Agency has focused on developing corrosion-resistant materials for sulfuric acid decomposers in the Sulfur-Iodine hydrogen production process and improving stainless steels to mitigate stress corrosion cracking under extreme nuclear conditions. A member of The Atomic Energy Society of Japan (AESJ), he has authored several impactful publications in nuclear materials research. His work has significantly advanced the understanding of material durability and performance in harsh environments, earning him recognition for his technical innovation and leadership. Dr. Hirota remains committed to promoting sustainable energy solutions through advanced materials development.

Profile: Orcid

Featured Publications

Hirota, N., Takeda, R., Ide, H., Tsuchiya, K., & Kobayashi, Y. (2025, December). Effect of grain refinement on cracks occurring in SUS304L stainless steel under nuclear reactor operating conditions. Nuclear Materials and Energy.

Hirota, N., Shibata, H., Takeuchi, T., Otsuka, N., & Tsuchiya, K. (2020, December 1). Voltage drop analysis and leakage suppression design for mineral-insulated cables. Journal of Nuclear Science and Technology,

Alexander Stolin | Engineering | Best Researcher Award

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Mr. Alexander Stolin | Engineering | Best Researcher Award

Merzhanov Institute of Structural Macrokinetics and Materials Science Russian Academy of Sciences (ISMAN) | Russia

Stolin Alexander Moiseevich is a distinguished materials scientist with a PhD and Doctor of Sciences degree, known for his pioneering contributions in the fields of self-propagating high-temperature synthesis (SHS), rheology, powder metallurgy, and solid-phase technologies. A graduate of Rostov State University, he began his scientific career at the Institute of Chemical Physics before joining ISMAN, where he has led the Laboratory of Plastic Deformation of Inorganic Materials since 1988. With over 500 scientific publications, 50 patents and copyright certificates, and an h-index of 21, his work has significantly advanced the understanding of viscous flow in reacting systems and high-temperature materials processing. He has mentored 21 PhD students and 2 doctoral candidates and is actively involved in multiple editorial boards and scientific committees. He is a key figure in academic-industry collaborations, notably with United Company Rusal. His accolades include the title of Honored Inventor of the USSR, the G.V. Vinogradov Prize, the Gold Medal at the Moscow Salon of Innovations, and the Honored Scientist of the Moscow Region title. His research continues to shape advanced material development and education in Russia and internationally, with a strong commitment to mentoring and scientific leadership. His citation count exceeds 1000, supported by verified documents and indexed publications.

Profile : Scopus

Featured Publications

Stolin, A.M., [Co-authors]. (2025). Structure and properties of the surfacing layer obtained with a powder SHS electrode based on TiC–NiCr. Metallurgist.

Stolin, A.M., [Co-authors]. (2024). Cold Uniaxial Pressing of PTFE-Based Composite Materials with Functional TiC and TiB₂ Additives. Russian Metallurgy (Metally).

Stolin, A.M., [Co-authors]. (2024). Critical Phenomena of Rheodynamic Origin in the Process of One-Sided Cold Pressing of Powder Materials. Theoretical Foundations of Chemical Engineering.

Stolin, A.M., [Co-authors]. (2024). Distinctive Features of the Grain Size Reduction Process in a TiC–NiCr Material Produced by SHS Extrusion. Inorganic Materials.

Stolin, A.M., [Co-authors]. (2023). Structure, and Mechanical and Tribological Properties of Ti–Cr–C–Ni–Fe Composite Coatings. Physical Mesomechanics.

Somnath Nandi | Data-informed Decision Making | Best Researcher Award

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Mr. Somnath Nandi | Data-informed Decision Making | Best Researcher Award

Jadavpur University | India

Mr. Somnath Nandi is a PhD Research Scholar at the Additive Manufacturing Research Group (AMRG), CSIR-Central Mechanical Engineering Research Institute (CMERI), India, affiliated with the Academy of Scientific and Innovative Research (AcSIR). His research focuses on functionally graded material (FGM) development, mechanical and tribological characterization, and process optimization in Wire Arc Additive Manufacturing (WAAM). He has contributed to several funded projects, including the design of SS-Ni transition metals-based electrodes for green hydrogen generation, bimetallic structure development for Tata Steel, and remanufacturing of railway brake shoes. Mr. Nandi holds an M.E. in Production Management from Jadavpur University and a B.Tech in Mechanical Engineering from the Government College of Engineering and Textile Technology, Berhampore. His published works in reputed SCI-indexed journals such as Progress in Additive Manufacturing, Materials Letters, and Journal of Materials Engineering and Performance highlight his expertise in optimization, digital twins, and sustainable manufacturing. His research interests span metal additive manufacturing, tribology, hybrid manufacturing, and digital monitoring systems. A GATE-qualified engineer (2021, 2022), he is an active member of professional societies including IIM and IAENG. Mr. Nandi has authored 10+ scientific documents, achieving an h-index of 3 with over 45 citations, reflecting his growing impact in the field of advanced manufacturing.

Profiles : Orcid | Google Scholar

Featured Publications

Biswas, S., Nandi, S., Hussain, M. S., Mandal, A., & Mukherjee, M. (2025). “Influence of heat input on the interfacial characteristics of SS316L–In718 bi-metallic deposition for wire arc additive manufacturing.” Materials Letters.

Nandi, S., Biswas, S., & Mukherjee, M. (2025). “Optimization of Wire Arc Additive Manufacturing Parameters for Steel–Aluminum Bimetallic Interface: A Comparative Study of Metaheuristic and Machine Learning Approaches.” Journal of Materials Engineering and Performance, 35(6).

Ahammed, A. A. C. P., Nandi, S., Paul, A. R., Sreejith, B., MJ, J., & Mukherjee, M. (2025). “On the Characteristic Evaluation of Bimetallic Interface of Carbon Steel (EN31) and Aluminium (AA4043) for Wire Arc Additive Manufacturing.” Metals and Materials International, 1–18.

Pendokhare, D., Nandi, S., & Chakraborty, S. (2025). “A comparative analysis on parametric optimization of abrasive water jet machining processes using foraging behavior-based metaheuristic algorithms.” OPSEARCH, 1–42.