Jie Wang | Materials Science | Best Researcher Award

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Prof. Jie Wang | Materials Science | Best Researcher Award

Qingdao Agricultural University | China

Prof. Jie Wang is an accomplished scholar in materials science, specializing in the design and construction of functional materials with applications in renewable energy, electrocatalysis, and advanced energy storage systems. He has authored over 100 publications in leading international journals, which have collectively garnered more than 6,580 citations, reflecting his significant research impact with an impressive h-index of 47. His research contributions span electrocatalysis for zinc-air and lithium-ion batteries, oxygen evolution and reduction reactions, water splitting, and the rational design of nanostructured materials such as transition metal sulfides, perovskites, and metal-organic frameworks. Prof. Wang has undertaken collaborative research at globally recognized institutions and serves as a corresponding or first author on numerous high-impact studies published in journals such as Advanced Materials, Advanced Functional Materials, Journal of Materials Chemistry A, and Energy Storage Materials. His work has been recognized through prestigious awards including multiple provincial and national-level prizes in natural science and outstanding research achievements. Alongside his publications, he has successfully led several major national and regional research grants focused on energy storage, electrocatalysis, and sustainable materials development. Through his extensive scholarly output, mentorship, and innovative research directions, Prof. Jie Wang continues to make influential contributions to advancing materials science and energy technologies.

Profiles : Scopus | Orcid | Google Scholar

Featured Publications

Author, A. A., Author, B. B., & Author, C. C. (2025). Porous carbon with predominant graphitic nitrogen and abundant defects mediated by reductive molten salt enables boosted sulfur conversion for room-temperature sodium-sulfur batteries. Chemical Engineering Journal.

Author, A. A., Author, B. B., & Author, C. C. (2025). Enhancing oxygen evolution electrocatalysis in heazlewoodite: Unveiling the critical role of entropy levels and surface reconstruction. Advanced Materials.

Author, A. A., Author, B. B., & Author, C. C. (2025). Optimizing aqueous zinc-sulfur battery performance via regulating acetonitrile co-solvents and carbon nanotube carriers. ChemSusChem.

Author, A. A., Author, B. B., & Author, C. C. (2025). Homogeneous bismuth dopants regulate cerium oxide structure to boost hydrogen peroxide electrosynthesis via two-electron oxygen reduction. Inorganic Chemistry Frontiers.

Author, A. A., Author, B. B., & Author, C. C. (2025). Promoting effect of copper doping on LaMO₃ (M = Mn, Fe, Co, Ni) perovskite-supported gold catalysts for selective gas-phase ethanol oxidation. Catalysts.

Author, A. A., Author, B. B., & Author, C. C. (2025). Structural regulation of NiFe LDH under spontaneous corrosion to enhance the oxygen evolution properties. ChemSusChem.

Author, A. A., Author, B. B., & Author, C. C. (2025). Exploring the efficiency of N, N-dimethylformamide for aqueous zinc-sulfur batteries. Science China Chemistry.

Author, A. A., Author, B. B., & Author, C. C. (2024). Expediting corrosion engineering for sulfur-doped, self-supporting Ni-Fe layered dihydroxide in efficient aqueous oxygen evolution. Catalysts.

Author, A. A., Author, B. B., & Author, C. C. (2024). Rational design of electrolyte additives for improved solid electrolyte interphase formation on graphite anodes: A study of 1,3,6-hexanetrinitrile. Energies.

Author, A. A., Author, B. B., & Author, C. C. (2024). Phase modulation of nickel-tin alloys in regulating electrocatalytic nitrogen reduction properties. Rare Metals.

Amerigo Beneduci | Chemistry | Best Researcher Award

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Prof. Amerigo Beneduci | Chemistry | Best Researcher Award

University of Calabria | Italy

Author Profile

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📚 Early Academic Pursuits

Prof. Beneduci began his scholarly path with a Master's degree in Chemistry from the University of Calabria , followed by a Ph.D. in Chemical Sciences , where he explored the biological effects of millimetre-wave radiation—an early sign of his interdisciplinary curiosity. His formative years laid a robust foundation in experimental research and theoretical analysis.

👨‍🔬 Professional Endeavors

Currently serving as Associate Professor and Head of two major research laboratories—the Laboratory of Environmental Chemistry at HTI SILA and the Laboratory of Physical Chemistry at CF-INABEC—Prof. Beneduci coordinates extensive research teams, supervises Ph.D. and postdoctoral researchers, and leads national and international collaborations. His work spans from water remediation and biocomposites to cutting-edge electrofluorochromic devices.

🔬 Contributions and Research Focus

Prof. Beneduci's research bridges chemistry, environmental science, materials innovation, and sustainable technology. His focus includes:
🌱 Development of eco-friendly materials for water and soil remediation
💡 Electrochromic and electrofluorescent compounds for optical devices
🧪 Ionic liquid crystals and organic semiconductors
🌍 Circular economy-driven material conversion processes

His patents and published work demonstrate a rare ability to transition lab-scale discoveries to real-world applications, including the co-founding of the academic spin-off SIRIA focused on environmental sustainability.

🏅 Accolades and Recognition

His excellence has been recognized with the IAAM Innovation Award by the International Association for Advanced Materials. He has also received multiple invitations for cover articles in prestigious journals such as Advanced Functional Materials and Chemical Communications. Notably, his 2019 publication was listed among the “Most Popular Articles” in Journal of Materials Chemistry C.

🌐 Impact and Influence

Prof. Beneduci is a sought-after plenary speaker and active editorial board member for journals like Applied Sciences and Frontiers in Materials. His role in interdisciplinary conferences and workshops has influenced policy-makers, industrial partners, and the next generation of scientists. His publications, often featured in high-impact journals, have reshaped how materials science can contribute to sustainable development, clean energy, and circular economies.

🔭 Legacy and Future Contributions

Looking ahead, Prof. Beneduci’s work continues to lead innovations in multi-functional materials, green chemistry, and smart environmental monitoring systems. His involvement in large-scale European and national grants, such as Tech4You and 3DBIOCOMED, ensures his leadership in tackling some of the most pressing environmental and technological challenges of our time.

Publications

📄 Quercetin and luteolin complexation with first-row transition metals in purely aqueous solutions: stoichiometry and binding site selectivity
Authors: Giuseppina Anna Corrente, Luana Malacaria, Amerigo Beneduci, Tiziana Marino, Emilia Furia
Journal: Dalton Transactions
Year: 2025

📄 Integrated Physicochemical and Chemometric Analysis for the Detection of Tara Gum Adulteration
Authors: Valentina Vulpitta, Giuseppina Anna Corrente, Danilo Gaudio, Alessandro Lano, Amerigo Beneduci
Journal: LWT (Lebensmittel-Wissenschaft & Technologie)
Year: 2025

📄 Multi‐Stimuli Responsive Ionic Liquid Crystals: The Fluorenoviologens
Authors: Giuseppina Anna Corrente, Agostina Lina Capodilupo, Gianluca Accorsi, Francesca Scarpelli, Alessandra Crispini, Amerigo Beneduci
Journal: SmartMat
Year: 2025

📄 Enhanced Adsorption of Methylene Blue in Wastewater Using Natural Zeolite Impregnated with Graphene Oxide
Authors: Gabriela Tubon-Usca, Cyntia Centeno, Shirley Pomasqui, Amerigo Beneduci, Fabian Arias Arias
Journal: Applied Sciences
Year: 2025

📄 Seasonal and Storm Event‐Based Dynamics of Dissolved Organic Carbon (DOC) Concentration in a Mediterranean Headwater Catchment
Authors: Alfonso Senatore, Giuseppina A. Corrente, Eugenio L. Argento, Jessica Castagna, Massimo Micieli, Giuseppe Mendicino, Amerigo Beneduci, Gianluca Botter
Journal: Water Resources Research
Year: 2023

Minseong Ko | Energy | Best Researcher Award

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Prof. Minseong Ko | Energy | Best Researcher Award

Pukyong National University | South Korea

Author Profile

Scopus

Orcid

🌟 Early Academic Pursuits

Prof. Minseong Ko's journey into the world of materials science and battery technology began with a strong academic foundation. He obtained his Bachelor of Science degree from Pukyong National University in the Department of Materials Science and Engineering. His passion for advanced materials led him to pursue a Master’s degree at Gwangju Institute of Science & Technology (GIST), where he focused on enhancing the sensitivity of GMR Spin Valve Sensors. He continued his academic excellence by earning a Ph.D. in Battery Science & Technology from the Ulsan National Institute of Science & Technology (UNIST). Under the guidance of esteemed mentors, including Prof. Jaephil Cho, he gained deep insights into lithium-ion batteries (LIBs) and energy storage technologies. His academic journey culminated in postdoctoral research at the Massachusetts Institute of Technology (MIT), where he worked under the mentorship of Prof. Ju Li, further strengthening his expertise in nuclear science and engineering.

💼 Professional Endeavors

Currently, Prof. Minseong Ko serves as an Associate Professor in the Department of Metallurgical Engineering at Pukyong National University, Busan, Republic of Korea. His professional trajectory has been marked by his contributions to battery technology and materials science. Throughout his career, he has engaged in cutting-edge research, focusing on the synthesis and functionalization of carbon materials, modification of nanomaterials, and the development of coating equipment for mass production. His role as an educator is equally significant, having taught and mentored students in advanced energy storage materials at prestigious institutions such as UNIST and Pukyong National University.

📈 Contributions and Research Focus

Prof. Ko’s research primarily revolves around all-solid-state batteries and lithium-ion battery (LIB) materials. His pioneering work in synthesizing cathode and anode materials aims to enhance energy storage efficiency, improve fast-charging capabilities, and ensure the non-flammability of LIBs. His expertise extends to in-situ analysis of electrode materials and HPPC (Hybrid Pulse Power Characterization) testing for electric vehicles. Additionally, he has been instrumental in the development of large-scale synthesizing equipment for commercialization, bridging the gap between academic research and industrial application.

His research interests include:

  • Development of high-energy and fast-charging lithium-ion batteries
  • Synthesis and surface modification of electrode materials
  • Fabrication of electrochemical full-cells (pouch and coin-type)
  • Commercialization and mass production of battery materials

🏆 Accolades and Recognition

Prof. Ko’s contributions to battery science have been widely recognized in the academic and industrial sectors. His groundbreaking research has been published in top-tier journals, including Nature Communications, Advanced Energy Materials, ACS Nano, and Nano Letters. These publications highlight his significant contributions to the advancement of high-performance lithium-ion batteries and nanomaterial applications. His work has not only earned him academic accolades but has also positioned him as a leader in the field of energy storage technology.

🔋 Impact and Influence

Through his extensive research and publications, Prof. Ko has made a lasting impact on the field of energy storage. His studies on silicon-based anodes and high-capacity cathode materials have paved the way for more efficient and durable lithium-ion batteries, crucial for applications in electric vehicles and renewable energy systems. His collaborative approach has also contributed to global advancements in materials engineering, fostering partnerships between academia and industry to drive innovation. Beyond research, Prof. Ko is deeply committed to mentoring the next generation of scientists and engineers. His teaching philosophy emphasizes hands-on experimentation and industry collaboration, equipping students with the skills needed to tackle real-world challenges in battery technology.

🌍 Legacy and Future Contributions

Looking ahead, Prof. Minseong Ko aims to further revolutionize battery technology by developing next-generation solid-state batteries with enhanced safety and performance. His research endeavors continue to focus on improving the longevity, efficiency, and sustainability of energy storage systems. As a respected scientist and mentor, he is set to leave a lasting legacy in the fields of materials science and electrochemical energy storage. With his unwavering dedication to innovation and excellence, Prof. Ko’s contributions will undoubtedly shape the future of sustainable energy solutions, benefiting industries and societies worldwide.

 

Publications

📄 "Morphology Control of Al Oxide Coating to Suppress Interfacial Degradation in Ultra-high Nickel Cathode Materials"

  • Authors: Minseong Kim, Jiyun Park, Taewan Kim, Byeonggu Kang, Jaegeon Im, Minseong Ko, Sujong Chae

  • Journal: Electrochimica Acta

  • Year: 2025

📄 "Binder-free CNT-implanted Carbon Cloth and Carbon Felt as Cathode Modifier for Bioelectricity Generation in Sediment Microbial Fuel Cells"

  • Authors: Nurfarhana Nabila Mohd Noor, Rashida Misali, Minseong Kim, Jeongmok Park, Minseong Ko, In-Cheol Lee, Tadashi Hibino, Kyunghoi Kim

  • Journal: Journal of the Taiwan Institute of Chemical Engineers

  • Year: 2025