Senior researcher, Korea Institute of Energy Research, South Korea
Dr. Yu-Jin HanΒ is a seasoned Senior Researcher at the Korea Institute of Energy Research (KIER), Ulsan, Korea. With a Ph.D. in Materials Science and Engineering from Kyushu University, Japan, he has built a strong career in energy materials. His pioneering work in carbon-based anodes, solid-state batteries, and nanocarbons positions him at the forefront of energy storage innovation. Dr. Han has published extensively in reputed journals and actively contributes to international conferences and collaborative R&D projects. π©
Profile
Orcid
π Education
Dr. Yu-Jin Han received his Ph.D. in Materials Science and Engineering from Kyushu University, Fukuoka, Japan (2012.10 β 2016.03). π« His doctoral research focused on carbon materials for battery technologies, including biomass-derived hard carbon and graphite surface modification. This academic foundation laid the groundwork for his later innovations in solid-state battery systems and carbon nanomaterials. ππ
π©Ί Experience
Dr. Hanβs professional journey began as a Postdoctoral Fellow at KRICT (2016β2017), followed by a tenure as a Senior Researcher at Jeonbuk Technopark (2017β2018). Since 2018, he has been contributing to breakthrough research as a Senior Researcher at KIER, Ulsan. π¬βοΈ His experience spans material synthesis, electrochemical analysis, and device design, solidifying his role as a battery innovation leader. π§ͺ
π¬ Research Interest
Dr. Hanβs research spans three pivotal areas in energy materials science. In Carbon-Based Anodes for Li-ion Batteries π, he focuses on enhancing surface properties of graphite, achieving high Coulombic efficiency through biomass-derived methods, and synthesizing graphitizable carbon for improved performance. His expertise in Nanocarbon Engineering 𧫠involves the structural and chemical modification of carbon nanofibers to optimize their electrochemical properties. In the field of All-Solid-State Battery Development β‘, Dr. Han works on improving compatibility between solid-state electrolytes and electrodes, while innovating high-performance cathode designs. His work seamlessly integrates materials chemistry with energy device engineering.
π Awards
Dr. Han has received multiple recognitions throughout his academic and research career, including acknowledgments for his poster presentations at the World Carbon Conference π and Japanβs Carbon Material Society Annual Meetings. His cross-border research contributions and innovation in bio-based electrode materials are widely appreciated by the international battery community. π₯π
π Publications
Cathode electrode architecture with facile ion percolating network β Chemical Engineering Journal, 2023
π Cited by related works on solid-state battery integrity and architecture.
Design and Optimization of Composite Cathodes using Hybrid Carbon Networks β ACS Appl. Mater. Interfaces, 2023
π Cited in studies on hybrid electronic-ionic transport systems.
Organic-Additive-Derived Cathode Electrolyte Interphase β Advanced Energy Materials, 2023
π Cited by high-impact solid electrolyte research articles.
Biomass-derived hard carbon for fast-charging Li-ion batteries β Journal of Alloys and Compounds, 2022
π Cited in biomass carbon and fast-charging electrode literature.
Optimization of pitch-based anode preparation β Journal of Industrial and Engineering Chemistry, 2019
π Referenced in LIB anode optimization studies.
Enhancing Coulombic efficiency of mangrove-derived hard carbon β SN Applied Sciences, 2019
π Cited in sodium-ion battery material comparisons.
Effect of heat treatment on mangrove wood-derived carbon β Electrochimica Acta, 2016
π Cited in works studying biomass thermal processing.
Plasma treatment for graphite anode improvement β Carbon, 2016
π Used in studies on C4F8 plasma modifications.
Plasma-treated carbon nanofibers for LIB β RSC Advances, 2016
π Cited in electrode surface modification work.
π Conclusion
Dr. Yu-Jin Han demonstrates a strong, consistent, and impactful track record in the field of energy storage materials, especially within Li-ion and solid-state battery research. His combination of innovative research, high-quality publications, and advanced technical expertise makes him a highly suitable candidate for the Best Researcher Award. With slight emphasis on technology translation, mentorship, and collaborative diversity, his profile would become even more compelling.