Pandurangan Vijayalakshmi | Polymer Chemistry | Women Researcher Award

Published on 02/12/202502/12/2025 by Analytical Chemistry

Dr. Pandurangan Vijayalakshmi | Polymer Chemistry | Women Researcher Award

Department of Chemistry, Tamilnadu Open University | India

Dr. Vijayalakshmi P is an emerging researcher in environmental chemistry, nanomaterials, photocatalysis, and electrochemistry, with a strong publication record and interdisciplinary research experience. Her doctoral work focused on the design and synthesis of advanced semiconductor-based nanocomposites and their photocatalytic degradation efficiency toward hazardous organic pollutants, including antibiotics, pesticides, and dyes. She has developed a wide range of Z-scheme and heterojunction photocatalysts such as V₂O₅/g-C₃N₄/ZnO, Bi₂O₃/g-C₃N₄/ZnO, TiO₂/g-C₃N₄/CuFe₂O₄, and ZrO₂-based composites, demonstrating significant improvements in visible-light-driven degradation performance. Her research extends to energy storage materials, supercapacitors, electrochemical sensing, and CO₂ reduction, reflected in her contributions to high-impact journals including Ionics, ChemistrySelect, Electrochimica Acta, Langmuir, and Emergent Materials. She has also collaborated on studies involving nanostructures for sensing carbendazim, biocompatible nanoscaffolds, and spinels for antibacterial and dielectric applications. Skilled in multiple analytical and characterization techniques XRD, SEM, TEM, UV–Vis, PL, EIS. she integrates materials synthesis with mechanistic and kinetic studies to address real-world environmental challenges. Her international exposure includes a research internship at the National Taipei University of Technology. Recognized with the Visionary Research Scientist Award (2025), she continues to advance innovative solutions for environmental remediation and sustainable energy applications.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

Vijayalakshmi, P., Shanmugavelan, P., & Mareeswaran, P. M. (2024). Enhanced photocatalytic activity of V₂O₅/g-C₃N₄/ZnO nanocomposite for efficient degradation of amoxicillin, chlorpyrifos, and methylene blue. Ionics, 1–29.
Vijayalakshmi, P., Shanmugavelan, P., Anisree, S., & Mareeswaran, P. M. (2024). Enhanced visible-light Z-scheme photocatalytic degradation of amoxicillin, chlorpyrifos, and methylene blue by Bi₂O₃/g-C₃N₄/ZnO nanocomposite. Journal of Materials Research, 39(22), 3103–3125.
Vijayalakshmi, P., Shanmugavelan, P., Muthu Mareeswaran, P., Yuvakkumar, R., & Nehru, S. (2024). Visible-light photocatalytic activity of a novel TiO₂/g-C₃N₄/CuFe₂O₄ nanocomposite in degradation of amoxicillin, chlorpyrifos, and methylene blue. ChemistrySelect, 9(38), e202400943.
Vijayalakshmi, P., Shanmugavelan, P., Mareeswaran, P. M., & Kandasamy, K. (2024). Synthesis of novel ZrO₂/g-C₃N₄/CuFe₂O₄ nanocomposite and its efficient photocatalytic degradation of amoxicillin, chlorpyrifos, and methylene blue. Asian Journal of Chemistry, 36(3), 697–709.
Anisree, S., Shanmugavelan, P., Vijayalakshmi, P., Kishore, R., & Srivastava, N. (2024). Synthesis, characterization and anticancer screening of novel phenylbenzylidene thiosemicarbazone derivatives. Phosphorus, Sulfur, and Silicon and the Related Elements, 199(4), 267–276.

Jinxiao Li | Inorganic Chemistry | Best Researcher Award

Published on 21/10/202521/10/2025 by Analytical Chemistry

Dr. Jinxiao Li | Inorganic Chemistry | Best Researcher Award

Dalian University | China

Dr. Jinxiao Li, currently affiliated with the College of Environmental and Chemical Engineering, Dalian University, is an accomplished researcher specializing in biomass-derived energy materials and sustainable energy conversion technologies. He earned his Ph.D. in Power Engineering and Engineering Thermophysics from Shandong University, where his doctoral research focused on the preparation of hierarchical porous carbon from plant-based materials and its application in supercapacitors. Over the past decade, Dr. Li has developed a robust research profile that bridges materials chemistry, renewable energy, and catalysis. Dr. Li’s research centers on biomass conversion, porous carbon fabrication, catalyst design, and hydrogen production. His innovative work on nitrogen-doped hierarchical porous carbons and activation techniques for improved electrochemical performance has significantly contributed to the development of high-efficiency supercapacitors and electrocatalytic systems. By integrating green synthesis methods and advanced characterization techniques such as BET, SEM-EDS, TEM, XRD, XPS, ICP, and FTIR, Dr. Li has advanced understanding of the structural-performance relationships in energy materials. With 21 publications, an impressive 1,291 citations, and an h-index of 14 (Scopus), Dr. Li’s scholarly output reflects both quality and influence in the field of energy materials and environmental chemistry. His work not only addresses fundamental scientific challenges but also offers practical implications for clean energy generation and carbon neutrality initiatives. In recognition of his research excellence, Dr. Li has been honored with the Dalian City Young Talents Award and the Outstanding College Graduates of Shandong Province Award. As an active expert member of the Dalian Energy Conservation Association, he continues to promote sustainable development through research and academic service. Dr. Li’s ongoing projects focus on next-generation biomass-based catalysts and hydrogen energy systems, positioning him as a leading figure in the pursuit of sustainable, high-performance energy materials.

Profiles : Scopus | ORCID

Featured Publications

Lian, M., Han, X., Li, J., Song, R., Yang, C., Zhang, J., Zhong, H., & Pan, L. (2025). Hierarchical porous carbon supports: Construction, mechanism, and catalytic performance as efficient microreactors for methanol steam reforming. Inorganic Chemistry Communications, 182(Part 2), 115561.
Zhao, Y.-e., Li, J., Xu, A., Liu, Y., Lian, M., Zhang, J., Zhong, H., Yang, C., Song, R., & Pan, L. (2025). Hierarchical porous carbon-supported bimetallic catalyst for enhanced low-temperature steam methane reforming. Catalysis Science & Technology.
Lv, S., Lian, S., Li, J., Wang, Y., Wei, J., Zhong, H., & Pan, L. (2025). Mechanochemical construction of stable Cu/MCM-41 with efficient hydrogen production via methanol steam reforming. International Journal of Hydrogen Energy, 164, 150818.
Li, J., Han, K., & Li, S. (2018). Porous carbons from Sargassum muticum prepared by H3PO4 and KOH activation for supercapacitors. Journal of Materials Science: Materials in Electronics.

Atul Jamale | Materials Chemistry | Best Researcher Award

Published on 17/10/202517/10/2025 by Analytical Chemistry

Dr. Atul Jamale | Materials Chemistry | Best Researcher Award

CICECO-Department of Materials and Ceramic Engineering, University of Aveiro | Portugal

Dr. Atul Prabhakar Jamale is a distinguished materials scientist currently serving as a Junior Researcher in the Department of Materials and Ceramic Engineering, CICECO – Aveiro Institute of Materials, University of Aveiro, Portugal. His research focuses on understanding the structure–composition–property correlations of advanced functional materials used in energy conversion, storage, and environmental applications. Dr. Jamale earned his Ph.D. in Physics from Shivaji University, Kolhapur, India, where his doctoral work centered on the synthesis and characterization of nanostructured La₀.₆Sr₀.₄Co₁₋ₓFeₓO₃−δ as cathode materials for solid oxide fuel cells (SOFCs). Prior to that, he completed his M.Sc. in Material Science and B.Sc. in Physics. His academic journey was marked by notable honors, including the UGC Meritorious Fellowship and the Eklavya Fellowship from the Government of Maharashtra. His current research involves the design, synthesis, and characterization of ionic and mixed ionic-electronic conductors, focusing on oxygen ion, alkali metal, carbonate ion, and protonic conductors. These materials have potential applications in fuel cells, sensors, membranes, and gas separation systems. Dr. Jamale’s expertise encompasses a wide range of synthesis techniques such as solid-state reactions, solution combustion, electrochemical depositions, and thin-film fabrication through PLD, spray pyrolysis, and screen printing. He is also proficient in advanced characterization tools, including XRD, SEM, STEM, FTIR, impedance analysis, and fuel cell testing. In addition to his research, Dr. Jamale actively contributes to the academic community as an editorial board member of reputed journals such as Frontiers in Energy Research, Membranes (MDPI), and the International Journal of Material Science and Applications. He is also a lifetime member of the Glass and Ceramic Society and the Electrochemical Society of Portugal. Through his innovative work in energy materials and ceramic technologies, Dr. Atul Jamale continues to make impactful contributions toward sustainable energy advancement and materials innovation.

Profiles : Scopus | ORCID | Google Scholar | Research Gate

Featured Publications

Jamale, A. P., & Nikte, S. S. (2025). Insight into the carbonate features of ceria carbonate composite membranes for electrochemical applications. Electrochimica Acta.

Jamale, A. P. (2024). Comparative assessment of Li–Na(CO₃/NO₃/OH) on flux performance of ceramic–salt composite CO₂ separation membranes. Industrial & Engineering Chemistry Research, 63, 17650.

Jamale, A. P., & Henriques, G. (2024). Optimization of safe doping level for enhanced CO₂ flux in composite membrane. Materials Advances, 5, 2027.

Gouadria, H., Mnasri, T., Jamale, A. P., Lopez Sanchez, J., Necib, J., Marín, P., Carmona, N., & Smari, M. (2023). Spectroscopic properties, conduction processes and the Summerfield scaling of barium titanate ceramics based on Bi and Fe. Inorganic Chemistry Communications, 157, 111417.

Gouadria, H., Smari, M., Mnasri, T., Necib, J., Lopez Sanchez, J., Marín, P., Jamale, A. P., & Ben Younes, R. (2023). Implementing a sol–gel route to adjust the structural and dielectric characteristics of Bi and Fe co-doped BaTiO₃ ceramics. Inorganic Chemistry Communications, 147, 110241.

Jianguang Xiao | Materials Chemistry | Best Researcher Award

Published on 14/10/202514/10/2025 by Analytical Chemistry

Prof. Jianguang Xiao | Materials Chemistry | Best Researcher Award

North University of China | China

Dr. Jianguang Xiao is an Associate Professor of Ordnance Science and Technology at North University of China, Ph.D., and supervisor for master’s degree candidates. Recognized as a Young Outstanding Talent of Shanxi Province’s “Sanjin Elite” Program, Dr. Xiao has made significant contributions to the study of reactive materials, explosion and shock dynamics, and target vulnerability assessment, particularly for UAVs, vehicles, and ammunition systems. His research integrates mechanics, thermotics, and chemistry, providing advanced modeling and simulation methods for reactive material behavior under high-velocity impact, energy release, and deflagration conditions. Dr. Xiao has led and participated in over twenty vertical and horizontal research projects, including funding from the National Natural Science Foundation of China, National Defense Foundation Projects, and Shanxi Provincial Natural Science Foundation. Notable projects include studies on the preparation and energy release characteristics of Tetrafluoroethylene-Hexafluoropropylene-Vinylidene Fluoride-based reactive materials and the development of integrated shock/deflagration material models. He has authored 28 high-level academic documents, including SCI and EI journal papers, one academic monograph, and holds three invention patents. His work has garnered 391 citations from 279 documents, achieving an h-index of 10, reflecting the significant impact of his research on the field of reactive materials and defense engineering. Dr. Xiao’s publications cover topics such as molecular dynamics simulation of chemical reactions, impact-induced deflagration behavior, and enhanced damage effects of reactive materials on concrete targets. Beyond research, Dr. Xiao actively contributes to the academic community. He serves on the youth editorial boards of journals including Journal of China Ordnance, Aeronautical Weaponry, and Journal of North University of China, and is a peer reviewer for prominent journals like Defence Technology and International Journal of Impact Engineering. He has been consecutively recognized as an Excellent Reviewer by multiple journals, emphasizing his commitment to maintaining high scholarly standards. Dr. Xiao’s interdisciplinary expertise, innovative contributions to reactive materials research, and active academic engagement make him a leading figure in his field, demonstrating both scientific excellence and practical impact.

Profiles : Scopus | ORCID | Research Gate

Featured Publications

Xiao, J., Zhang, J., Ma, J., et al. (2024). Mechanics–thermotics–chemistry coupling response model and numerical simulation of reactive materials under impact load. Advances in Engineering Software, 192, 103647.
An, D., Xiao, J.*, Ma, J., et al. (2024). Molecular dynamics simulation of chemical reactions in polytetrafluoroethylene-based reactive materials. Journal of North University of China (Natural Science Edition), 45(02), 222–228.
Nie, Z., Xiao, J., Wang, Y., & Xie, Z. (2022). Mechanical properties and ignition reaction characteristics of THV-based reactive materials. Journal of China Ordnance, 43(12), 3030.
Xiao, J., Nie, Z., Wang, Z., Du, Y., & Tang, E. (2020). Energy release behavior of Al/PTFE reactive materials powder in a closed chamber. Journal of Applied Physics, 127(16), 165106.
Xiao, J., Wang, Z., Nie, Z., Tang, E., & Zhang, X. (2020). Evaluation of Hugoniot parameters for unreacted Al/PTFE reactive materials by modified SHPB test. AIP Advances, 10(4), 045211.

Yong Jyun Wang | Materials Chemistry | Best Researcher Award

Published on 08/04/202508/04/2025 by Analytical Chemistry

Mr. Yong Jyun Wang | Materials Chemistry | Best Researcher Award

National Tsing Hua University, Taiwan

👨‍🎓Profiles

🎓 Early Academic Pursuits

Mr. Yong Jyun Wang embarked on his academic journey in the field of Materials Science, and he is currently a Ph.D. candidate at the Department of Materials Science and Engineering, National Tsing Hua University, Taiwan, expecting to graduate in 2025. His early academic foundation laid the groundwork for his deep engagement in the synthesis and property analysis of advanced functional materials, particularly focusing on oxide thin films.

💼 Professional Endeavors

Throughout his doctoral studies, Mr. Wang has actively participated in significant national research projects, including the MOST-113-2639-M-007-001–ASP, which centers on the development and future application of high-entropy epitaxial films. He has gained valuable experience in cutting-edge material fabrication techniques, with an emphasis on physical vapor deposition (PVD). His professional training is complemented by collaborative efforts within interdisciplinary research teams aiming to push the boundaries of electronic material design.

🔬 Contributions and Research Focus

Mr. Wang’s primary research has revolved around two-dimensional bismuth oxychalcogenides, particularly Bi₂O₂Se, targeting its integration into next-generation electronic and memory devices. Through compositional engineering and non-volatile modulation techniques, he has pioneered the development of p-type Bi₂O₂Se with high mobility, making it feasible for integration with its native n-type counterpart. This paves the way for complementary circuits, enhancing the material’s potential in versatile electronic systems. Furthermore, his innovative approach to non-volatile control enables memory functionalities, expanding the application horizon of Bi₂O₂Se in advanced backend electronics.

🌍 Impact and Influence

Despite being at an early stage in his career, Mr. Wang has already made notable contributions to the materials science community. His work has been featured in prestigious journals such as Nature Communications and Advanced Materials, indicating strong recognition from the academic community. His insights into high-mobility semiconducting materials have opened new research avenues for low-power electronics and neuromorphic computing.

🛠️ Technical Skills

Mr. Wang is proficient in advanced thin-film fabrication methods, especially physical vapor deposition, and skilled in material characterization techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), atomic force microscopy (AFM), and electrical transport measurements. His technical versatility allows for comprehensive investigations into both structural and electronic properties of novel materials.

👨‍🏫 Teaching Experience

While pursuing his Ph.D., Mr. Wang has actively mentored undergraduate and junior graduate students, assisting them in lab training and project supervision. His role as a peer mentor has not only contributed to the academic growth of his colleagues but also strengthened his capabilities in scientific communication and leadership.

🌱 Legacy and Future Contributions

Mr. Wang’s work on Bi₂O₂Se has established a strong foundation for complementary logic and memory device platforms , essential for the advancement of low-dimensional nanoelectronics. Looking ahead, he aspires to continue his research into functional oxide materials, explore heterogeneous integration, and contribute to the development of energy-efficient and intelligent device systems. His vision includes bridging fundamental material science with practical applications in flexible electronics, smart sensors, and neuromorphic systems.

📖Notable Publications

ZrO₂-HfO₂ Superlattice Ferroelectric Capacitors With Optimized Annealing to Achieve Extremely High Polarization Stability
Authors: Y.K. Liang, W.L. Li, Y.J. Wang, L.C. Peng, C.C. Lu, H.Y. Huang, S.H. Yeong, …
Journal: IEEE Electron Device Letters
Year: 2022

Electric-field control of the nucleation and motion of isolated three-fold polar vertices
Authors: M. Li, T. Yang, P. Chen, Y. Wang, R. Zhu, X. Li, R. Shi, H.J. Liu, Y.L. Huang, …
Journal: Nature Communications
Year: 2022

High entropy nonlinear dielectrics with superior thermally stable performance
Authors: Y.J. Wang, H.C. Lai, Y.A. Chen, R. Huang, T. Hsin, H.J. Liu, R. Zhu, P. Gao, C. Li, …
Journal: Advanced Materials
Year: 2023

Flexible magnetoelectric complex oxide heterostructures on muscovite for proximity sensor
Authors: Y.J. Wang, J.W. Chen, Y.H. Lai, P.W. Shao, Y. Bitla, Y.C. Chen, Y.H. Chu
Journal: npj Flexible Electronics
Year: 2023

Quasi-static modulation of multiferroic properties in flexible magnetoelectric Cr₂O₃/muscovite heteroepitaxy
Authors: Y.H. Lai, P.W. Shao, C.Y. Kuo, C.E. Liu, Z. Hu, C. Luo, K. Chen, F. Radu, …
Journal: Acta Materialia
Year: 2023

Nuchnapa Tangboriboon | Materials Chemistry | Best Researcher Award -1921

Published on 18/03/202518/03/2025 by Analytical Chemistry

Assoc. Prof. Dr. Nuchnapa Tangboriboon | Materials Chemistry | Best Researcher Award

Kasetsart University, Thailand

👨‍🎓Profiles

Scopus Profile

🎓 Early Academic Pursuits

Assoc. Prof. Dr. Nuchnapa Tangboriboon, currently a distinguished faculty member at Kasetsart University, Thailand, has dedicated her academic journey to advancing material sciences, particularly focusing on inorganic, ceramic, and bio-nanomaterials. From her formative years as a researcher to her current role, Dr. Tangboriboon has consistently shown a passion for integrating natural and synthetic materials for industrial and biomedical applications. Her foundational studies laid the groundwork for her contributions to sustainable materials science and engineering.

🏢 Professional Endeavors

Dr. Tangboriboon serves as the head of the Applications of Inorganic, Ceramic, and Natural Bio-Nanomaterials Research Unit at Kasetsart University. Under her supervision, the research unit operates at the intersection of traditional material processing and innovative nanotechnology. The lab has developed expertise in ceramic, glass, and gypsum processing for advanced applications and building construction, alongside pioneering research in bio-nanomaterials and their applications in healthcare and industrial sectors.

🔬 Contributions and Research Focus

Dr. Tangboriboon’s research contributions have significantly advanced the understanding and application of bio-nanomaterials for industrial and medical applications. Her lab specializes in:

The development of bio-nanomaterials for innovative medical solutions.
3D printing, sol-gel, and slip casting techniques for ceramics and glasses.
Designing and producing synthetic and natural rubber films for medical products, including gloves, patches, and tissue-engineering materials using gypsum and ceramic hand molds.
Crafting bio-composite materials and eco-friendly bio-catalysts aimed at promoting alternative and sustainable energy solutions.

🌍 Impact and Influence

Dr. Tangboriboon’s work holds considerable influence in both academic and industrial spheres, bridging the gap between fundamental research and real-world applications. Her advancements in natural rubber latex applications and bio-composites have been instrumental in Thailand’s growing emphasis on sustainable material production, healthcare innovations, and green technology.

📚 Academic Citations and Recognition

With numerous publications in peer-reviewed journals, Dr. Tangboriboon’s research has garnered significant academic recognition, contributing to her standing as a respected expert in her field. Her work is frequently cited by researchers focusing on bio-nanomaterials, ceramic sciences, and green energy technologies, affirming her contributions to cutting-edge scientific development.

🛠️ Technical Skills

Dr. Tangboriboon has mastered a variety of advanced material processing techniques, including:

3D printing of ceramics and glasses.
Sol-gel synthesis and slip casting methods.
Fabrication of rubber-based biomedical devices.
Bio-catalyst development for renewable energy applications.

Her proficiency extends to interdisciplinary fields combining materials science, biomedical engineering, and sustainable technology.

👩‍🏫 Teaching Experience

In addition to her research, Dr. Tangboriboon is an enthusiastic educator. At Kasetsart University, she mentors undergraduate and graduate students, fostering a learning environment that emphasizes research-based education. She has supervised numerous thesis projects and research initiatives, equipping students with practical skills in ceramic processing, bio-nanomaterial fabrication, and medical device prototyping.

🌱 Legacy and Future Contributions

Dr. Tangboriboon envisions a future where bio-based materials and nanotechnology will play pivotal roles in addressing global challenges such as environmental sustainability and public health. Her ongoing commitment to green resources and alternative energies ensures that her lab will continue to contribute impactful solutions to both academia and industry. She is dedicated to nurturing the next generation of researchers while pushing the boundaries of material science innovation.

📖Notable Publications

Multifunctional role of calcium chloride in improving the chemical, mechanical, and physical properties of natural and synthetic rubber latex for gloves and transdermal patch films
Authors: P. Kantasa, A. Obormkul, N. Tangboriboon
Journal: Industrial Crops and Products
Year: 2025

Bio composite of porous hydroxyapatite and collagen extracted from eggshell membrane and Oreochromis niloticus fish skin for bone tissue applications
Authors: N. Ingwattanapok, Y. Sakunrak, N. Tangboriboon
Journal: Journal of Applied Polymer Science
Year: 2023

Enhancement of water and salt penetration resistance into mortar cement composited with vulcanized natural rubber compound
Authors: I. Jitkarune, P. Manantapong, N. Tangboriboon
Journal: Journal of Applied Polymer Science
Year: 2023

Conductive and self-cleaning composite membranes from corn husk nanofiber embedded with inorganic fillers (TiO2, CaO, and eggshell) by sol-gel and casting processes for smart membrane applications
Authors: S. Posri, N. Tangboriboon
Journal: Reviews on Advanced Materials Science
Year: 2023

Modified thermal- and sound-absorption properties of plaster sandwich panels with natural rubber-latex compounds for building construction
Authors: S. Pianklang, S. Muntongkaw, N. Tangboriboon
Journal: Journal of Applied Polymer Science
Year: 2022

Effects of physical and chemical properties of ceramic hand moulds on natural rubber latex glove film formation
Authors: N. Tangboriboon, S. Changkhamchom, A. Sirivat
Journal: International Journal of Materials and Product Technology
Year: 2022

Bunyamin Cicek | Materials Chemistry | Material Chemistry Award

Published on 26/02/202526/02/2025 by Analytical Chemistry

Assoc. Prof. Dr. Bunyamin Cicek | Materials Chemistry | Material Chemistry Award

Hitit University, Turkey

👨‍🎓Profiles

🎓 Academic Background and Current Affiliation

Assoc. Prof. Dr. Bunyamin Cicek is a distinguished researcher in Materials Chemistry and Biomaterials, currently affiliated with Hitit University, Turkey. With extensive experience in material science, his contributions have significantly impacted the field of biomaterials and chemical engineering.

📊 Research Contributions and Focus

Dr. Cicek's research primarily revolves around materials chemistry and biomaterials, with a strong emphasis on developing advanced materials for biomedical and industrial applications. His work integrates chemical synthesis, material characterization, and application-based research, contributing to innovations in biomaterial development and material surface modifications.

🔬 Publication Metrics and Research Impact

Dr. Cicek’s research has been well recognized within the scientific community, as reflected in his publication metrics:

H-index: 8

Total Citations: 193

Total Publications: 34

Web of Science Core Collection Publications: 24

His scholarly output demonstrates his contributions to materials chemistry and the growing significance of his research in advancing biomaterial technologies.

🏆 Recognitions and Researcher Profiles

Dr. Cicek maintains an active presence in the global research community through platforms such as: Web of Science ResearcherID, ORCiD. These profiles showcase his scientific contributions, collaborations, and ongoing research endeavors, solidifying his reputation as a leading expert in materials chemistry and biomaterials.

🌍 Future Contributions and Research Vision

Dr. Cicek continues to expand the frontiers of materials science, focusing on the development of sustainable and high-performance biomaterials. His future research aims to enhance material functionalities for medical, environmental, and industrial applications, ensuring a lasting impact on the field. His dedication to scientific advancement positions him as a key contributor to cutting-edge materials research and innovation. 🚀

📖Notable Publications

Production of 316L stainless steel implant materials by powder metallurgy and investigation of their wear properties
- Authors: N. Kurgan, Y. Sun, B. Cicek, H. Ahlatci
- Journal: Chinese Science Bulletin
- Year: 2012
Wear behaviours of Pb added Mg–Al–Si composites reinforced with in situ Mg₂Si particles
- Authors: B. Çiçek, H. Ahlatçı, Y. Sun
- Journal: Materials & Design
- Year: 2013
A study on the mechanical and corrosion properties of lead added magnesium alloys
- Authors: B. Çiçek, Y. Sun
- Journal: Materials & Design
- Year: 2012
Kinetic investigation of AISI 304 stainless steel boronized in indirect heated fluidized bed furnace
- Authors: P. Topuz, B. Çiçek, O. Akar
- Journal: Journal of Mining and Metallurgy, Section B: Metallurgy
- Year: 2016
Effects of alloying element and cooling rate on properties of AM60 Mg alloy
- Authors: L. Elen, B. Cicek, E. Koc, Y. Turen, Y. Sun, H. Ahlatci
- Journal: Materials Research Express
- Year: 2019

Wei Lv | Materials Chemistry | Best Researcher Award

Published on 26/02/202526/02/2025 by Analytical Chemistry

Dr. Wei Lv | Materials Chemistry | Best Researcher Award

North China Electric Power University, China

👨‍🎓Profiles

Scopus Profile

🎓 Academic Background

Dr. Wei Lv obtained his Ph.D. in Materials Chemistry from Central Iron & Steel Research Institute in 2018, specializing in the development of advanced materials for energy storage applications. His strong academic foundation has fueled his contributions to the field of energy storage and biomedicine.

🏛️ Professional Endeavors

Currently, Dr. Wei Lv serves as an Associate Professor at North China Electric Power University, China. His work bridges the gap between materials chemistry and practical energy storage solutions, making significant strides in both academic research and industrial applications.

🔬 Research Focus & Contributions

Dr. Wei Lv’s research primarily revolves around:
✔️ Aqueous Batteries & Key Materials 🔋 – Developing next-generation sustainable and high-performance energy storage solutions.
✔️ Energy Storage Materials ⚡ – Exploring novel materials for improving battery efficiency, capacity, and stability.
✔️ Biomedical Applications 🏥 – Investigating the role of energy storage materials in medical and healthcare technologies.

Through innovative research, he has made substantial contributions to the understanding and advancement of energy storage materials and their applications in sustainable technologies.

📚 Publications & Academic Impact

Dr. Lv has authored multiple SCI-indexed papers, significantly contributing to materials chemistry and energy storage research. His work has been widely cited, demonstrating its influence in the scientific community.

🛠️ Technical Expertise

Dr. Wei Lv possesses expertise in various cutting-edge research methodologies, including:
✔️ Battery Electrode Material Design & Synthesis
✔️ Electrochemical Performance Evaluation
✔️ Advanced Materials Characterization Techniques
✔️ Biocompatibility Testing for Biomedical Applications
✔️ Sustainable Energy Storage Technologies

🎓 Teaching & Mentorship

As an Associate Professor, Dr. Wei Lv actively mentors undergraduate and postgraduate students, providing them with guidance on research methodologies, experimental techniques, and scientific writing. His mentorship plays a crucial role in shaping the next generation of researchers in materials science and energy storage.

🌍 Future Contributions & Research Vision

Dr. Lv is committed to advancing sustainable energy storage solutions and biomedical applications. His future research aims to:
🔹 Develop eco-friendly and high-performance battery materials for renewable energy applications.
🔹 Explore novel materials for biomedical energy storage technologies.
🔹 Bridge materials chemistry with real-world applications in energy and medicine..

📖Notable Publications

In situ synthetic C encapsulated δ-MnO₂ with O vacancies: a versatile programming in bio-engineering

Authors: W. Lv, Z. Shen, J. Liu, J. Meng, C. Xu

Journal: Science Bulletin

Year: 2025

Discovering Cathodic Biocompatibility for Aqueous Zn–MnO₂ Battery: An Integrating Biomass Carbon Strategy

Authors: W. Lv, Z. Shen, X. Li, Y. Tian, C. Xu

Journal: Nano-Micro Letters

Year: 2024

Niobium fluoride-modified hydrogen evolution reaction of magnesium borohydride diammoniate

Authors: Y. Lv, B. Zhang, H. Huang, D. Sun, Y. Wu

Journal: Journal of Materials Science and Technology

Year: 2023