Davut Uzun | Chemistry | Best Research Article Award

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Assoc Prof Dr. Davut Uzun | Chemistry | Best Research Article Award 

Assoc Prof Dr. Davut Uzun | Marmara University | Turkey

Assoc. Prof. Dr. Davut Uzun, an accomplished independent researcher affiliated with Marmara University, Turkey, has over two decades of expertise in material synthesis, electrochemical characterization, and battery technologies. He has led more than 12 projects, including pioneering work in lithium-ion battery infrastructure development, enabling pilot-scale production up to 60 Ah. With an h-index of 11, over 300 citations, a published book, and multiple high-impact journal articles, Dr. Uzun’s research has significantly advanced capacitor and battery applications. His innovative contributions bridge academic research and industry needs, positioning him as a leading figure in sustainable energy storage solutions.

Author Profile

Scopus | Google Scholar

Education

Assoc. Prof. Dr. Davut Uzun’s academic journey began at Marmara University, where he graduated from the Department of Chemistry. His deep interest in material science, electrochemistry, and energy storage systems shaped his early research path. From his undergraduate years, Dr. Uzun demonstrated exceptional analytical skills and a talent for experimental research. His dedication to understanding the complex interactions in electrochemical systems led him to pursue studies that bridged fundamental chemistry with applied energy technologies. This strong academic foundation prepared him for a career that would significantly influence battery and capacitor development in Türkiye and beyond.

Experience

Following his graduation, Dr. Uzun joined the TÜBİTAK Marmara Research Center, where he quickly progressed to leading critical projects in battery technology. Between 2009 and 2013, he spearheaded the design and establishment of Türkiye’s lithium-ion battery R&D infrastructure, enabling pilot-scale production of batteries up to 60 Ah capacity. He has led over 12 major research projects in material synthesis, electrode design, and electrochemical characterization, collaborating with both public institutions and private industry partners. Since 2019, Dr. Uzun has continued as an independent researcher at Marmara University, focusing on cutting-edge solutions for energy storage. His work is distinguished by its practical application potential, ensuring that laboratory innovations translate into market-ready technologies.

Research Focus

Dr. Uzun’s research spans material synthesis, electrochemical characterization, and electrode/cell production for capacitors and batteries. His expertise covers lithium-ion, sodium-ion, and supercapacitor technologies, with particular attention to transition metal hydroxides, sulfides, and doped oxide materials. His current project at Marmara University investigates carbon quantum dot-embedded reduced graphene oxide composites for high-performance electrochemical capacitors.
He has published extensively in high-impact journals indexed in SCI and Scopus, authored a key reference book “Lithium-Ion Batteries and Applications” (ISBN: 978-625-406-870-6), and contributed to industrial innovations through five industry-sponsored projects. Dr. Uzun’s 14 indexed research articles, with an h-index of 11 and over 300 citations, highlight his sustained contribution to advancing energy storage materials and systems.

Award and Recognition

While Dr. Uzun’s focus has primarily been on delivering impactful research rather than seeking awards, his scientific influence is evident in peer recognition, industry collaborations, and invitations to participate in high-profile projects. His infrastructure development work at TÜBİTAK remains a cornerstone for Türkiye’s battery research ecosystem, still actively used for material synthesis, battery design, and international-standard testing. His publications have been widely cited, reflecting the global relevance of his work. Furthermore, his latest article in Electrochemistry Communications (DOI: 10.1016/j.elecom.2025.108024) positions him as a front-runner in supercapacitor electrode development.

Impact and Influence

Dr. Uzun’s career reflects a seamless integration of academic research with industrial applications, driving advancements that extend well beyond the laboratory. He has played a pivotal role in supporting domestic battery manufacturing capabilities in Türkiye, advancing cost-effective and scalable production methods for energy storage, and facilitating the transfer of innovative technologies from research labs to industry. Through mentorship and collaboration, he has influenced and inspired a new generation of researchers and engineers. By combining expertise in materials chemistry, electrochemical engineering, and industrial design principles, Dr. Uzun has not only fostered laboratory innovation but also enhanced market competitiveness in battery technologies. His pioneering work on sodium-ion and lithium-ion cathode materials offers promising alternatives to current commercial solutions, with far-reaching environmental and economic benefits on a global scale.

Publications

The potential use of sweet sorghum as a non-polluting source of energy.

Author: Semra Türe , Davut Uzun , I.Engin Türe
Journal: Energy
Year: 1997

Boron-doped Li1. 2Mn0. 6Ni0. 2O2 as a cathode active material for lithium ion battery.

Author: SDavut Uzun
Journal: Solid State Ionics
Year: 2015

Effect of MnO2 coating on layered Li (Li0. 1Ni0. 3Mn0. 5Fe0. 1) O2 cathode material for Li-ion batteries.

Author: Davut Uzun, Mehbare Doğrusöz, Muhsin Mazman, Emre Biçer, Ercan Avci, Tansel Şener , Tevhit Cem Kaypmaz, Rezan Demir-Cakan
Journal: Solid State Ionics
Year: 2013

High performance LiFePO4/CN cathode material promoted by polyaniline as carbon–nitrogen precursor.

Author: Ercan Avci , Muhsin Mazman , Davut Uzun , Emre Biçer , Tansel Şener
Journal: Power Sources
Year: 2013

Conclusion

Assoc. Prof. Dr. Davut Uzun stands as a distinguished figure in the field of energy storage, whose dedication to material innovation, electrochemical advancement, and industrial application has significantly strengthened Türkiye’s position in battery technology research and development. His pioneering contributions—from establishing national R&D infrastructure to developing next-generation electrode materials—demonstrate a rare blend of scientific excellence and practical impact. With a career defined by innovation, mentorship, and cross-sector collaboration, Dr. Uzun continues to shape the future of sustainable energy solutions, inspiring both peers and emerging researchers worldwide. His work not only addresses current technological challenges but also lays the foundation for cleaner, more efficient, and globally competitive energy systems.

 

Kaiqi Fan | Chemistry | Best Researcher Award

Published on by Research Awards

Assoc Prof Dr. Kaiqi Fan | Chemistry | Best Researcher Award 

Assoc Prof Dr. Kaiqi Fan | Zhengzhou University of Light Industry | China

Assoc. Prof. Dr. Kaiqi Fan, a distinguished researcher at Zhengzhou University of Light Industry, China, specializes in polymers, supramolecular chemistry, co-crystalline gels, and hydrogels. He has led multiple provincial-level science and technology projects, secured several invention patents, and published impactful papers in leading journals such as Chemical Engineering Journal and Journal of Colloid and Interface Science. His pioneering work on asymmetric-adhesion Janus hydrogels has advanced medical interface technologies, enabling improved continuous ultrasound Doppler monitoring. Dr. Fan’s research integrates innovation, material design, and practical applications, significantly contributing to the development of advanced functional materials with biomedical and industrial relevance.

Author Profile

Scopus

Education

Assoc. Prof. Dr. Kaiqi Fan’s academic journey began with a strong foundation in chemistry and materials science, where his early education nurtured a passion for understanding molecular interactions and functional materials. His curiosity for polymers and supramolecular assemblies developed during his higher education years, leading him to focus on designing advanced materials with tailored properties. Driven by a desire to merge fundamental chemistry with practical applications, Dr. Fan excelled in both theoretical understanding and laboratory experimentation. This early dedication provided the groundwork for his later breakthroughs in hydrogels, ionic elastomers, and co-crystalline gels, ensuring that his career would be deeply rooted in innovation and scientific rigor.

Experience

Currently serving as an Associate Professor at Zhengzhou University of Light Industry, Dr. Fan plays a vital role in advancing polymer science research while mentoring the next generation of scientists. He has successfully led multiple provincial-level science and technology projects in Henan Province, each addressing real-world challenges through advanced material design. His expertise extends beyond academia into collaborative research with industrial partners, translating laboratory findings into practical solutions. Moreover, Dr. Fan has contributed significantly to scientific literature, with publications in prestigious journals such as Chemical Engineering Journal and Journal of Colloid and Interface Science. His academic and professional roles are characterized by a balance of teaching excellence, research leadership, and cross-disciplinary collaboration.

Research Focus

Dr. Fan’s research centers on polymers, supramolecular chemistry, and the design of functional gels with unique mechanical and interfacial properties. Among his most notable contributions is the development of chitosan-integrated asymmetric-adhesion Janus hydrogels via solid–gel interfacial engineering. This innovation addresses the challenge of programmable adhesion asymmetry by introducing a mold-directed solid–gel interface strategy, achieving an 18-fold difference in adhesion strength between the two sides of the hydrogel. The resulting materials not only exhibit exceptional acoustic impedance properties comparable to commercial ultrasound gels but also demonstrate dual-functionality—secure attachment for medical probes and a sliding interface for dynamic tissue interaction. His broader research portfolio includes eutectogel adhesives, self-healing conductive gels, underwater-sensing gels, and low-temperature-resistant hydrogel electrolytes, all contributing to advancements in biomedical devices, sensing technologies, and energy storage systems.

Award and Recognition

Dr. Fan’s pioneering work has been recognized through multiple avenues. He has secured several invention patents, demonstrating his capacity for translating scientific concepts into practical and commercially viable innovations. His research articles have been featured in high-impact journals indexed in SCI and Scopus, earning citations from scholars worldwide. By leading competitive provincial research grants, he has established himself as a trusted innovator in China’s scientific community. These accolades not only highlight his academic excellence but also validate the societal relevance of his research in areas such as medical diagnostics, wearable technology, and sustainable material design.

Impact and Influence

The influence of Dr. Fan’s research extends far beyond the laboratory. His innovations in hydrogel technology have the potential to transform biomedical imaging and monitoring, particularly in continuous ultrasound Doppler measurements, where his designs enhance signal quality and patient comfort. By advancing materials that combine stretchability, self-healing properties, and environmental resilience, his work supports the development of wearable electronics and energy devices that can withstand harsh operating conditions. His contributions are also shaping the next generation of researchers through mentorship, workshops, and collaborative projects, fostering a culture of creativity and scientific curiosity.

Publications 

Janus POSS-based hydrogel electrolytes with high-ionic conductivity and low-temperature-resistance for all-in-one flexible supercapacitors.

Author: Xiaojing Zhang, Luxin Cao, Xiaobo Wang, Zhen Liu, Jiwei Peng, Wentong Yang, Kaiqi Fan
Journal: Journal of Energy Storage
Year: 2025

Eutectogel adhesives with underwater-enhanced adhesion to hydrophilic surfaces and strong adhesion in harsh environments.

Author: Kaiqi Fan, Wentong Yang, Jiwei Peng, Xiaobo Wang, Luxin Cao, Xidong Guan, Haijun Sun, Xiaojing Zhang
Journal: Chemical Engineering Journal
Year: 2024

One-step preparation of highly conductive eutectogel for a flexible strain sensor.

Author: Kaiqi Fan, Jiwei Peng, Wentong Yang, Xiaobo Wang, Sen Liu, Luxin Cao, Haijun Sun, Xiaojing Zhang.
Journal: Applied Polymer Science
Year: 2024

Conclusion

Assoc. Prof. Dr. Kaiqi Fan exemplifies the ideal blend of scientific curiosity, technical mastery, and practical innovation. From his early academic foundation in polymer and supramolecular chemistry to his groundbreaking work on asymmetric-adhesion Janus hydrogels and advanced functional materials, he has consistently pushed the boundaries of materials science. His patents, publications, and leadership in provincial research projects demonstrate both academic excellence and societal impact. Beyond his personal achievements, Dr. Fan’s mentorship and collaborations are cultivating the next generation of researchers. With a vision firmly set on solving real-world challenges, his legacy will continue to inspire innovation and shape the future of advanced material technologies.