Yousaf Muhammad | Energy Conversion | Research Excellence Award

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Assoc. Prof. Dr. Yousaf Muhammad | Energy Conversion | Research Excellence Award

Assoc. Prof. Dr. Yousaf Muhammad is a leading researcher in energy storage devices and solid oxide fuel cell technologies. With 2,946 citations and an h-index of 33, his work significantly advances low-temperature SOFCs, semiconductor electrolytes, and proton-conducting fuel cells. His research integrates materials innovation, rare-earth-doped nanoferrites, and electrochemical performance enhancement. Collaborating internationally, he contributes to renewable energy solutions, hydrogen technology, and ceramic fuel cell development for sustainable, high-efficiency energy conversion systems.

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Featured Publications

Marwa Mohamed | Electrochemical Energy | Best Researcher Award

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Assoc. Prof. Dr. Marwa Mohamed | Electrochemical Energy | Best Researcher Award

City of Scientific Research and Technological Applications | Egypt

Assoc. Prof. Dr. Marwa Mohamed is an accomplished researcher and academic in Materials Engineering and Science, holding a B.Sc. in Chemical Engineering, M.Sc., and Ph.D. from Alexandria University. Her Ph.D. focused on novel metal alloy/polymer nanocomposites for engineering applications, reflecting her strong foundation in advanced materials and nanotechnology. With 20 high-quality publications, 243 citations, and an h-index of 8, she has made significant contributions to the synthesis and characterization of graphene derivatives, polymer and metal oxide nanocomposites, and Fe-Ni nanomaterials. Her research emphasizes green and eco-friendly methodologies, including facile chemical synthesis of metallic nanomaterials, development of high-performance supercapacitors, and structural materials for aerospace, automotive, and renewable energy applications. Assoc. Prof. Dr. Marwa Mohamed has actively collaborated with international institutions, such as Georgia Institute of Technology, and industrial partners, demonstrating practical impact alongside academic excellence. She has directed multiple graduate theses, led funded research projects exceeding several million EGP, and co-organized workshops and conferences to advance knowledge dissemination. A recognized peer reviewer for top journals, she also actively engages in scientific societies and promotes innovation in materials science. Fluent in English and Arabic, with strong computational and analytical skills, Assoc. Prof. Dr. Marwa Mohamed combines research excellence, mentorship, and interdisciplinary collaboration, establishing herself as a leading figure in sustainable materials engineering.

Profile: Scopus | Orcid

Featured Publications

Mohamed, M. A. A., Adel, M., & El Nady, J. (2025). High‐performance solid‐state supercapacitors based on eco‐friendly N‐doped graphene-like nanosheets/nanosized NiCo oxide nanocomposite produced by green facile technology. Energy Technology.

Mohamed, M. A. A., Adel, M., & El Nady, J. (2024). Evaluation of the electrochemical energy storage performance of symmetric supercapacitor devices based on eco-friendly synthesized nitrogen-doped graphene-like derivative electrodes from the perspective of their nanostructural characteristics. Energy Advances.

Adel, M., Hassan, D., Mohamed, M. A. A., Kassem, T. S. E., Fetouh, H. A., AbdElhafez, S. E., & El Nady, J. (2024, November 8). Role of synthetic process parameters of nano-sized cobalt/nickel oxide in controlling their structural characteristics and electrochemical energy performance as supercapacitor electrodes. Scientific Reports.

Mohamed, M. A. A., Abd El-Aziz, A. M., & Adel, M. (2024, May 6). Advances in green production of two-dimensional graphene-derivatives-based polymer composites with overview on their physicochemical characteristics and applications prospects. In G. Singh, R. P. Singh, N. Sharma, & J. P. Davim (Eds.), Green Composites Manufacturing (Adv. Compos. Ser., Ch. 9, pp. 199–256). De Gruyter.

Mohamed, M. A. A., Adel, M., & Abd El-Aziz, A. M. (2023, November). Recent trends in two-dimensional graphene derivatives-based composites: Review on synthesis, properties and applications. Journal of Composite Materials, 57(27), 4327–4364.

Jagadis Gautam | Energy | Best Researcher Award

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Dr. Jagadis Gautam | Energy | Best Researcher Award

Research Professor at Kyung Hee University, South Korea

Dr. Jagadis Gautam is a Chemical Engineering researcher specializing in nanomaterials for energy storage and conversion technologies. With a Ph.D. from Chonbuk National University, South Korea, and extensive postdoctoral experience across leading institutions in South Korea and China, his work focuses on electrocatalysis, water splitting, CO₂ reduction, fuel cells, and battery systems. He has published in high-impact journals and delivered invited talks at international conferences. Dr. Gautam is proficient in advanced synthesis and electrochemical techniques, and his contributions have earned him recognition such as the Best Presentation Award at AFORE 2022. He also brings over five years of teaching experience.

Academic Profile

Google Scholar

Educational Background

Dr. Jagadis Gautam holds a Ph.D. in Chemical Engineering from Chonbuk National University, South Korea, where his research focused on transition metal-graphene hybrids for oxygen reduction reactions. He earned his Master’s degree in Chemistry from Tribhuvan University, Nepal. His academic journey reflects a strong foundation in chemical sciences, supported by advanced research training in nanomaterials, energy conversion, and electrochemical systems. Dr. Gautam’s education laid the groundwork for his expertise in material synthesis and performance analysis for applications such as fuel cells and batteries. His diverse academic experiences across Asia highlight his commitment to interdisciplinary learning and global collaboration.

Professional Experience

Dr. Jagadis Gautam has accumulated extensive professional experience as a researcher and educator in the field of chemical engineering and nanotechnology. He is currently serving as a Research Professor at Kyung Hee University, South Korea. Previously, he held postdoctoral positions at Inha University, Kumoh National Institute of Technology, and Yangzhou University, where he contributed to advanced projects in energy storage and conversion. His expertise spans electrocatalysis, battery fabrication, and material characterization. Earlier in his career, he also served as a Lecturer in Chemistry in Nepal for over five years, demonstrating a balanced commitment to both research and teaching excellence.

Awards and Honors

Dr. Jagadis Gautam has received notable recognition for his contributions to chemical and energy materials research. He was honored with the Best Presentation Award at the AFORE 2022 Conference held in Jeju, South Korea, reflecting the impact and clarity of his scientific communication. Additionally, he has been acknowledged with Reviewer Certificates by the Energy, Ecology, and Environment journal in 2023 and the Journal of Applied Electrochemistry in 2024 for his contributions to peer review. These accolades highlight his active engagement in the academic community and his commitment to maintaining high standards in research dissemination.

Research Focus

Dr. Jagadis Gautam’s research centers on the development and application of advanced nanomaterials for energy storage and conversion technologies. His work focuses on synthesizing and characterizing materials for use in water splitting, CO₂ reduction, fuel cells, Zn-air batteries, Li-ion and Li-sulfur batteries, and supercapacitors. He is skilled in electrochemical analysis and membrane electrode fabrication, applying methods such as solvothermal synthesis, CVD, and electrodeposition. His recent efforts include designing bifunctional electrocatalysts and optimizing solid-state interfaces for high-efficiency energy systems. Dr. Gautam’s research contributes significantly to advancing clean energy technologies and sustainable electrochemical solutions.

Publication top Notes

Solid-State Electrolytes and Their Interfacial Properties: Implications for Solid-State Lithium Batteries
Year: 2025 | Cited by: 3

Enhanced Carbon Quantum Dots-Based Chemiluminescence Probes for Copper Ion Detection in Human Plasma and Urine
Year: 2025 | Cited by: 1

Bifunctional Electrocatalysts for Zn–Air Batteries: A Comprehensive Review of Design Optimization and In-Situ Characterization
Year: 2025 | Cited by: 1

Advancements in Flexible Perovskite Solar Cells and Their Integration into Self-Powered Wearable Optoelectronic Systems
Year: 2025 | Cited by: 1

Cutting‐Edge Optimization Strategies and In Situ Characterization Techniques for Urea Oxidation Reaction Catalysts: A Comprehensive Review
Year: 2025 | Cited by: 4

Conclusion

Dr. Jagadis Gautam is a highly accomplished researcher in nanomaterials and energy conversion technologies, with a Ph.D. in Chemical Engineering and extensive postdoctoral experience in South Korea and China. His expertise spans electrocatalysis, water splitting, CO₂ reduction, and advanced battery systems. With publications in high-impact journals and international conference recognition, he demonstrates strong scientific potential. While further leadership and independent research could enhance his profile, his contributions position him as a strong candidate for the Best Researcher Award.

 

 

Xudong Hu | Energy conversion | Best Researcher Award

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Dr. Xudong Hu | Energy conversion | Best Researcher Award

Dr. Xudong Hu, Henan University, China

Dr. Xudong Hu is a pioneering Chinese researcher based in Kaifeng, Henan Province, specializing in hydrogen energy, water treatment, and environmental catalysis. With a strong background in chemistry and materials science, he has published impactful first-author papers in Angewandte Chemie, International Journal of Hydrogen Energy, and Chemical Engineering Science. His work emphasizes sustainable solutions through advanced catalyst design and optimization for clean energy and pollutant degradation. Dr. Hu combines theoretical insights with experimental precision, earning recognition as an emerging expert in green technology

Publication Profile

Scopus

🎓 Education

Dr. Xudong Hu completed his higher education in China, where he pursued his academic training in materials science, chemistry, and environmental engineering. He earned his undergraduate and graduate degrees from top-tier institutions, focusing on energy materials and catalytic systems. During his doctoral studies, he specialized in electrochemical systems and photocatalytic processes for energy and environmental applications. His academic path has been enriched by interdisciplinary studies combining computational modeling with lab-based experimentation. Through rigorous training and research, Dr. Hu built a solid foundation that drives his contributions in sustainable energy and environmental remediation. 📘🎓⚗️

💼 Experience

Dr. Hu has accumulated extensive research experience in electrocatalysis, photocatalysis, and advanced water treatment systems. He has served as the first or co-first author on several internationally recognized papers, leading projects on multifunctional catalyst design and green chemistry. His career includes both theoretical and hands-on experimental work, with a focus on industrial wastewater treatment, seawater electrolysis, and peracetic acid activation. He has collaborated with multidisciplinary teams and contributed to innovations in hydrogen production and pollutant degradation. Dr. Hu is currently advancing catalyst technologies that support cleaner industries and more sustainable environmental practices. 🧪💧🔍

🏆 Awards & Honors

Dr. Xudong Hu has been honored for his groundbreaking research in hydrogen energy and environmental catalysis. His publications in high-impact journals such as Angewandte Chemie have brought international attention to his work. He has been recognized by academic committees and research institutions for excellence in innovation, theoretical modeling, and applied catalyst design. His work on multifunctional catalysts and water treatment technologies has earned him several national research awards and invitations to speak at conferences. These accolades reflect his dedication to addressing global sustainability challenges through science and engineering. 🏅🌟📚

🔬 Research Focus

Dr. Hu’s research focuses on high-efficiency hydrogen production, photocatalytic degradation of persistent organic pollutants (POPs), and advanced water treatment methods. He designs multifunctional electrocatalysts with surface and electronic structure optimization to support seawater electrolysis and peracetic acid activation. His studies integrate theoretical modeling with real-world environmental applications, targeting sustainable energy production and pollutant control. Dr. Hu’s contributions extend to industrial wastewater recycling and the development of green chemical processes. Through synergistic catalysis and materials innovation, his work bridges chemistry, environmental engineering, and energy technology. 💡🔋🌊

Publication Top Notes

  • 📄 Theory-guided Design of Surface-Enhanced Ni-Mn Diatomic Site Catalysts for Efficient Seawater Electrolysis via the Degradation of High Ionization Potential Organic Pollutants
    📘 Journal: Angewandte Chemie
    🗓️ Year: 2025
    🔬 Focus: Hydrogen production & pollutant degradation
    ✍️ Role: First & Corresponding Author
  • 📄 Fe-Enriched Electron Transport in CuFeS₂ Catalyzed Peracetic Acid for Efficient Dipyrone Degradation: Computational and Experimental Insights
    📘 Journal: Chemical Engineering Science
    🗓️ Year: 2025
    🔗 DOI: 10.1016/j.ces.2025.121180
    🔬 Focus: Pharmaceutical pollutant degradation
    ✍️ Role: Co-First AuthorX-MOL

 

Mohsen Hasan Babayi Nozadian | Power Electronics | Best Researcher Award

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Dr. Mohsen Hasan Babayi Nozadian | Power Electronics | Best Researcher Award

Dr. Mohsen Hasan Babayi Nozadian, Bu-Ali Sina University, Iran

Dr. Mohsen Hasan Babayi Nozadian is an Assistant Professor of Electrical Engineering at Bu-Ali Sina University, Iran. He earned his Ph.D. from the University of Tabriz and is a recognized member of the National Elites Foundation. Dr. Nozadian has held various academic and administrative roles, including Head of the Electrical Engineering Department at Afagh Higher Education Institute and reviewer for prestigious IEEE journals. His expertise spans power electronics, renewable energy, and power systems. He is actively involved in international conferences and research initiatives and continues to contribute to engineering innovation and education in Iran and beyond. 🌍⚡📘

Publication Profile

Google Scholar

🎓 Education

Dr. Nozadian completed his high school diploma in Math & Physics at Andishe Borna High School in Urmia. He pursued a B.Sc. in Electronics Engineering from the University of Urmia, followed by an M.Sc. and Ph.D. in Electrical Engineering from the University of Tabriz. His thesis work throughout his academic journey was consistently awarded the highest grades, with a perfect 20/20 for his B.Sc., M.Sc., and Ph.D. theses, which explored capacitor placement, Z-source inverters, and advanced inverter topologies. His solid educational foundation laid the groundwork for his research in power electronics and renewable energy systems. 📐🔋📚

💼 Experience

Dr. Nozadian has taught at several institutions, including the University of Tabriz, Urmia University of Technology, and Bu-Ali Sina University, where he is currently a faculty member. He served as Head of the Electrical Engineering Department and led the Entrepreneurship and Innovation Center at Afagh Higher Education Institute. His professional roles also include Electrical Project Manager at Araz Hefaz Niroo Co. and R&D Manager at TNTGO Co. His teaching spans from undergraduate to Ph.D. levels in courses such as Power Electronics, Electrical Machines, and Renewable Energies, combining academic excellence with real-world application. 🧑‍🏫🔌🛠️

🏅 Awards & Honors

Dr. Nozadian has received numerous accolades, including First Class Honor for his B.Sc. and multiple education and research prizes from the National Elites Foundation (2016–2018). He was awarded the prestigious Ali Polad Award and recognized as the top Ph.D. graduate in 2020. He has served as a reviewer for elite IEEE journals such as IEEE Transactions on Power Electronics and Industrial Electronics. His scholarly paper was selected among the top 100 in IEEE Trans. Ind. Electron. in 2016. He also received the Tehrani Mogaddam prize and has been an active IEEE and IET member. 🏆📑🎖️

🔬 Research Focus

Dr. Nozadian’s research emphasizes analysis, modeling, and control of advanced power electronic converters including dc/dc, dc/ac, multilevel, and Z-source inverters. He investigates resonance converters, power quality, and reliability in power systems with applications in renewable energy integration. His Ph.D. work introduced improved topologies for Z-source inverters, and he has contributed to national projects at Niroo Research Institute. His interests also extend to matrix converters and soft-switching techniques. He actively develops simulation models using MATLAB/Simulink and PSCAD to enhance converter efficiency and system stability in modern power systems. ⚙️🔋🌞

Publication Top Notes

📘 Developed embedded switched‐Z‐source inverter – E Babaei, E Shokati Asl, M Hasan Babayi, S Laali 📅 2016 🔁 117
📘 Steady-state and small-signal analysis of high-voltage gain half-bridge switched boost inverter – E Babaei, ES Asl, MH Babayi 📅 2016 🔁 100
📘 Steady-state analysis and design considerations of high voltage gain switched Z-source inverter with continuous input current – MHB Nozadian, E Babaei, SH Hosseini, ES Asl 📅 2017 🔁 92
📘 New half-bridge and full-bridge topologies for a switched-boost inverter with continuous input current – ES Asl, E Babaei, M Sabahi, MHB Nozadian, C Cecati 📅 2017 🔁 66
📘 Switched Z‐source networks: A review – M Hasan Babayi Nozadian, E Babaei, SH Hosseini, E Shokati Asl 📅 2019 🔁 50
📘 Improving microgrid frequency regulation based on the virtual inertia concept while considering communication system delay – GA Alizadeh, T Rahimi, MH Babayi Nozadian, S Padmanaban, … 📅 2019 🔁 33
📘 A new topology for Z-source inverter based on switched-inductor and boost Z-source inverter – E Babaei, M Hasan Babayi, E Shokati Asl, S Laali 📅 2015 🔁 25
📘 High step‐up single‐phase‐switched Z‐source inverter: steady‐state analysis and cost evaluation – MHB Nozadian, E Babaei, SH Hosseini 📅 2019 🔁 9
📘 High step‐up active Z‐source dc/dc converters; analyses and control method – MR Alizadeh Pahlavani, M Hasan Babayi Nozadian 📅 2019 🔁 9
📘 Steady state analysis of dual switched boost inverter – MHB Nozadian, E Babaei, V Ranjbarzad 📅 2018 🔁 9
📘 The effect of series and shunt redundancy on power semiconductor reliability – MHB Nozadian, MS Zarbil, M Abapour 📅 2016 🔁 9
📘 Class of high step‐up switched Z‐source inverters: steady state analysis and objective function – M Hasan Babayi Nozadian, E Babaei, SH Hosseini 📅 2019 🔁 8
📘 An Embedded Half-Bridge Γ-Z-Source Inverter with Reduced Voltage Stress on Capacitors – H Mashinchi Maheri, D Vinnikov, MHB Nozadian, E Shokati Asl, E Babaei, … 📅 2021 🔁 7

Xuefeng Song | Photocatalysis | Best Researcher Award

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Prof. Dr. Xuefeng Song | Photocatalysis | Best Researcher Award

Prof. Dr. Xuefeng Song, Shanghai Jiao Tong University, China

Prof. Dr. Xuefeng Song is a distinguished materials scientist specializing in functional micro/nanostructures, nanocomposites, and energy applications. He earned his Ph.D. in Materials Science from the Shanghai Institute of Ceramics, Chinese Academy of Sciences, in 2009. He further advanced his research as a Postdoctoral Fellow at the University of Cologne, Germany (2009-2012). Since 2012, he has been a key faculty member at Shanghai Jiao Tong University, leading groundbreaking research in photocatalysis, energy storage, and protective coatings. With over 100 publications in top-tier journals, 4,300+ citations, and 32 invention patents, his contributions to materials science are globally recognized. He has led over 20 major research projects, funded by prestigious institutions like the National Natural Science Foundation of China and the BMBF Fellowship in Germany. His numerous accolades, including the VinFuture Prize nomination and IAAM Fellowship, highlight his impact in the field.

Publication Profile

Google Scholar

Education 🎓📚

Prof. Dr. Xuefeng Song pursued his Ph.D. in Materials Science at the Shanghai Institute of Ceramics, Chinese Academy of Sciences, in 2009, focusing on the controlled synthesis of functional micro/nanostructures. He further enriched his academic expertise through a postdoctoral fellowship at the Institute of Inorganic Chemistry, University of Cologne, Germany, from 2009 to 2012, where he worked on innovative nanocomposite systems. Since 2012, he has been a faculty member at Shanghai Jiao Tong University, contributing to advanced research in energy materials and protective coatings. His academic journey is marked by extensive interdisciplinary research, blending chemistry, physics, and engineering to pioneer new material technologies. He has also contributed to three English-language academic monographs, enhancing global knowledge dissemination. His education provided a solid foundation for his pioneering work in photocatalysis, energy conversion, and nanostructured materials, positioning him as a leading scientist in materials research.

Experience 🏆🔬

Prof. Dr. Xuefeng Song has over a decade of research experience in materials science, focusing on nanostructured materials and energy applications. As a Principal Investigator, he has led over 20 major research projects, including those funded by the National Natural Science Foundation of China, the Shanghai Natural Science Foundation, and the HY Program of the Equipment Development Department. His expertise spans from laboratory research to industrial applications, particularly in photocatalysis, energy storage, and protective coatings. His work has led to significant advancements in sustainable energy solutions and advanced coatings. He has authored over 100 high-impact publications, earning 4,300+ citations, and filed 32 invention patents, with 28 already granted. His leadership in research has positioned him as an influential figure in nanomaterials and their applications in energy-efficient and environmentally friendly technologies, bridging the gap between scientific discovery and real-world innovation.

Awards & Honors 🏅🎖️

Prof. Dr. Xuefeng Song’s contributions to materials science have earned him numerous prestigious honors. He is a VinFuture Prize nominator, recognizing his influence in cutting-edge research. He has been awarded Fellowship of the International Association of Advanced Materials (IAAM) for his impact on materials innovation. As a Science Ambassador for Bentham Science Publishers, he actively promotes scientific advancements. He has also received the SMC-Chenxing Young Scholar Award, recognizing his outstanding early-career achievements. His research excellence has been acknowledged through prestigious talent programs, including the Longcheng Talent Program (Changzhou) and the Class B Scholar of the Ming Shi Zhi Xiang Program (Shaoxing). His global recognition, spanning academia and industry, underscores his exceptional contributions to nanomaterials, energy storage, and advanced coatings, making him a leading scientist in his field.

Research Focus 🔬⚡

Prof. Dr. Xuefeng Song’s research is centered on controlled synthesis of functional micro/nanostructures, the construction of nanocomposite systems, and their applications in photocatalysis, energy storage, and protective coatings. His work in photocatalysis focuses on developing advanced materials for efficient light-driven chemical reactions, crucial for environmental sustainability. His contributions to energy storage and conversion include innovations in battery and supercapacitor technologies, enhancing energy efficiency and performance. His research on protective coatings aims to develop high-performance, durable coatings for industrial applications. His interdisciplinary approach integrates chemistry, nanotechnology, and engineering to create next-generation materials for energy and environmental applications. His research has had a significant impact, with over 100 publications in top-tier journals, 4,300+ citations, and 32 patents, reinforcing his position as a leader in the field of advanced materials science. 🚀

Publication Top Notes

📄 Facile synthesis and hierarchical assembly of hollow nickel oxide architectures bearing enhanced photocatalytic properties | 🔗 X Song, L Gao | 🏛️ The Journal of Physical Chemistry C | 📅 2008 | 🔍 Cited by: 232

📄 Self‐Assembled α‐Fe₂O₃ Mesocrystals/Graphene Nanohybrid for Enhanced Electrochemical Capacitors | 🔗 S Yang, X Song, P Zhang, J Sun, L Gao | 🏛️ Small | 📅 2014 | 🔍 Cited by: 209

📄 Facile Synthesis of Nitrogen-Doped Graphene–Ultrathin MnO₂ Sheet Composites and Their Electrochemical Performances | 🔗 S Yang, X Song, P Zhang, L Gao | 🏛️ ACS Applied Materials & Interfaces | 📅 2013 | 🔍 Cited by: 177

📄 Mapping the surface adsorption forces of nanomaterials in biological systems | 🔗 XR Xia, NA Monteiro-Riviere, S Mathur, X Song, L Xiao, SJ Oldenberg, … | 🏛️ ACS Nano | 📅 2011 | 🔍 Cited by: 160

📄 Fabrication of hollow hybrid microspheres coated with silica/titania via sol–gel process and enhanced photocatalytic activities | 🔗 X Song, L Gao | 🏛️ The Journal of Physical Chemistry C | 📅 2007 | 🔍 Cited by: 156

📄 Covalently Coupled Ultrafine H-TiO₂ Nanocrystals/Nitrogen-Doped Graphene Hybrid Materials for High-Performance Supercapacitor | 🔗 S Yang, Y Lin, X Song, P Zhang, L Gao | 🏛️ ACS Applied Materials & Interfaces | 📅 2015 | 🔍 Cited by: 143

📄 Synthesis, characterization, and gas sensing properties of porous nickel oxide nanotubes | 🔗 X Song, L Gao, S Mathur | 🏛️ The Journal of Physical Chemistry C | 📅 2011 | 🔍 Cited by: 120

📄 Facile synthesis of polycrystalline NiO nanorods assisted by microwave heating | 🔗 X Song, L Gao | 🏛️ Journal of the American Ceramic Society | 📅 2008 | 🔍 Cited by: 116

📄 Synthesis, characterization, and optical properties of well-defined N-doped, hollow silica/titania hybrid microspheres | 🔗 X Song, L Gao | 🏛️ Langmuir | 📅 2007 | 🔍 Cited by: 116

📄 Active Fe₂O₃ nanoparticles encapsulated in porous g-C₃N₄/graphene sandwich-type nanosheets as a superior anode for high-performance lithium-ion batteries | 🔗 M Shi, T Wu, X Song, J Liu, L Zhao, P Zhang, L Gao | 🏛️ Journal of Materials Chemistry A | 📅 2016 | 🔍 Cited by: 106

📄 Heating-Rate-Induced Porous α-Fe₂O₃ with Controllable Pore Size and Crystallinity Grown on Graphene for Supercapacitors | 🔗 S Yang, X Song, P Zhang, L Gao | 🏛️ ACS Applied Materials & Interfaces | 📅 2015 | 🔍 Cited by: 104

📄 Phyllosilicate evolved hierarchical Ni-and Cu–Ni/SiO₂ nanocomposites for methane dry reforming catalysis | 🔗 T Wu, Q Zhang, W Cai, P Zhang, X Song, Z Sun, L Gao | 🏛️ Applied Catalysis A: General | 📅 2015 | 🔍 Cited by: 94

📄 ZnFe₂O₄ nanoparticles-cotton derived hierarchical porous active carbon fibers for high rate-capability supercapacitor electrodes | 🔗 S Yang, Z Han, F Zheng, J Sun, Z Qiao, X Yang, L Li, C Li, X Song, B Cao | 🏛️ Carbon | 📅 2018 | 🔍 Cited by: 90

📄 Surfactant-free hydrothermal synthesis of Cu₂ZnSnS₄ (CZTS) nanocrystals with photocatalytic properties | 🔗 J Wang, P Zhang, X Song, L Gao | 🏛️ RSC Advances | 📅 2014 | 🔍 Cited by: 89

📄 Crumpled nitrogen-doped graphene–ultrafine Mn₃O₄ nanohybrids and their application in supercapacitors | 🔗 S Yang, X Song, P Zhang, L Gao | 🏛️ Journal of Materials Chemistry A | 📅 2013 | 🔍 Cited by: 86

📄 Attapulgite modulated thorny nickel nanowires/graphene aerogel with excellent electromagnetic wave absorption performance | 🔗 F Sun, Q Liu, Y Xu, X Xin, Z Wang, X Song, X Zhao, J Xu, J Liu, L Zhao, … | 🏛️ Chemical Engineering Journal | 📅 2021 | 🔍 Cited by: 83

Conclusion

Prof. Dr. Xuefeng Song stands out as a highly accomplished researcher with a strong publication record, leadership in major projects, and a significant impact in materials science. His contributions to nanostructures, energy storage, and protective coatings, along with his extensive patent portfolio and global recognitions, make him a strong candidate for the Best Researcher Award. 🚀

Weifeng Li | Power Battery | Best Researcher Award

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Assoc Prof Dr. Weifeng Li | Power Battery | Best Researcher Award

Assoc Prof Dr. Weifeng Li, Jilin University, China

Assoc. Prof. Dr. Weifeng Li is an Associate Professor at Jilin University’s National Key Laboratory of Automotive Chassis Integration and Bionics 🚗. With a Ph.D. in Engineering from Jilin University and postdoctoral fellowship from Tsinghua University 🎓, he focuses on the thermal safety of new energy vehicle power batteries 🔋. He has published 24 SCI papers 📚, led numerous national and provincial research projects, and is recognized as a top talent in Jilin Province 🌟. Dr. Li’s work includes safety material innovation, system protection design, and the development of thermal safety evaluation methods for batteries 🔥.

 

Publication profile

Orcid

Education

Weifeng Li, who holds a Ph.D. in Engineering from Jilin University and a postdoctoral fellowship from Tsinghua University, is currently an Associate Professor and Master’s Supervisor at Jilin University’s National Key Laboratory of Automotive Chassis Integration and Bionics 🚗. He has been recognized as a top talent in Jilin Province (Class D) and selected for Jilin University’s “Innovative Excellent Young Teacher Training Program” 🌟.

Research Focus

Assoc. Prof. Dr. Weifeng Li’s research predominantly centers on the thermal safety and performance optimization of new energy vehicle power batteries 🔋. He explores advanced technologies and methodologies to enhance battery safety and efficiency, particularly in all-solid-state and lithium-ion batteries 🔄. His work includes the development of bio-inspired electrodes, safety assessments, and improving low-temperature performance for electric vehicles ❄️. Dr. Li also investigates thermal runaway prevention, battery vent gas flammability, and the combustion process in dual-fuel engines, making significant contributions to automotive energy systems and battery safety optimization 🚗.

 

Publication Top Notes

  • Cell-level thermal safety assessments toward optimization of all-solid-state batteries
    📄 Published in 2024, cited by 0
  • Bio‐Inspired Electrodes with Rational Spatiotemporal Management for Lithium‐Ion Batteries
    📄 Published in 2024, cited by 0
  • Cell Design for Improving Low-Temperature Performance of Lithium-Ion Batteries for Electric Vehicles
    📄 Published in 2023, cited by 0
  • Experimental study on the cell-jet temperatures of abused prismatic Ni-rich automotive batteries under medium and high states of charge
    📄 Published in 2022, cited by 0
  • Bioinspired Thermal Runaway Retardant Capsules for Improved Safety and Electrochemical Performance in Lithium‐Ion Batteries
    📄 Published in 2021, cited by 12
  • Three-phase interface-assisted advanced electrochemistry-related applications
    📄 Published in 2021, cited by 5
  • Fire boundaries of lithium-ion cell eruption gases caused by thermal runaway
    📄 Published in 2021, cited by 3
  • Quantitative analysis of eruption process of abused prismatic Ni-rich automotive batteries based on in-chamber pressure
    📄 Published in 2020, cited by 8
  • Size distribution and elemental composition of vent particles from abused prismatic Ni-rich automotive lithium-ion batteries
    📄 Published in 2019, cited by 14
  • Flammability characteristics of the battery vent gas: A case of NCA and LFP lithium-ion batteries during external heating abuse
    📄 Published in 2019, cited by 9
  • Theoretical and experimental analysis of the lithium-ion battery thermal runaway process based on the internal combustion engine combustion theory
    📄 Published in 2019, cited by 18