Hanyang University - South Korea
Author Profile
SCOPUS
🎓 Early academic pursuits
Caroline Sunyong lee's academic journey is rooted in her deep passion for materials science. she pursued her graduate studies at the university of california, berkeley, where she worked as a research assistant in the ceramic processing laboratory. her doctoral research focused on developing processes to join dissimilar ceramic materials, specifically silicon nitride and alumina, using sialon as an interlayer. this work significantly improved high-temperature performance and was supported by extensive characterization using transmission electron microscopy (tem). her academic excellence led her to a postdoctoral fellowship at gyeongsang national university, further refining her expertise in engineering research.
💼 Professional endeavors
Dr. Lee’s professional career is marked by a rich blend of industrial and academic experiences. she began her career at applied materials, where she worked on dielectric etching processes and advanced semiconductor fabrication techniques. at intel corporation, she contributed to the advanced interconnected technology development division, optimizing gold sputter equipment for improved manufacturing yields. later, she joined lg electronics institute of technology as a chief research engineer, focusing on nano-data storage systems, cantilever fabrication, and media development for low-power scanning probe microscopy (spm)-based data storage. since 2006, she has been a professor at hanyang university, where she has been instrumental in advancing research in functionally graded materials, mems technology, and electronic materials.
🔬 Contributions and research focus
Dr. Lee’s research spans diverse domains within materials science, particularly in nanomaterials and electronic devices. she has played a pivotal role in developing supersonic micronozzles using deep reactive ion etching (drie), nano-particle deposition systems (npds) for ceramic and metal powder coatings, and self-assembled monolayer (sam) coatings for nano-sized copper Gas sensor powders. her work also extends to electrochromic windows, gas sensors, dye-sensitized solar cells (dssc), and photocatalysts, which have significant applications in energy and environmental technologies. her contributions have led to enhanced material properties, improved fabrication techniques, and innovations in sustainable energy solutions.
🏆 Accolades and recognition
Dr. Lee's outstanding contributions to materials science and engineering have earned her widespread recognition. she serves as the director of administration for the korean institute of metals and materials, a testament to her leadership in the field. her role as director of the ieep in tanzania showcases her commitment to global education and research collaboration. in academia, Gas sensor she has mentored and graduated 32 master’s students and four ph.d. students, further strengthening the scientific community with her expertise and guidance.
🌍 Impact and influence
Beyond her research contributions, dr. lee has significantly impacted the academic landscape through teaching and mentorship. she has designed and delivered courses in materials science, Gas sensor materials electrochemistry, composite materials, semiconductor devices, micro and nano fabrication, and polymer materials. her ability to translate complex scientific concepts into practical applications has influenced countless students and researchers. her work in mems and nano-fabrication technologies continues to shape the future of electronic and energy materials.
🔄 Legacy and future contributions
Dr. Lee’s legacy in materials science and chemical engineering is defined by her relentless pursuit of innovation and education. as a leader in advanced material research, she continues to explore novel approaches in electronic materials, sustainable energy applications, and multifunctional devices. her work at hanyang university and her contributions to international collaborations set a strong foundation for future advancements. through her mentorship, research, and leadership, she remains an inspiring figure in the field of nanotechnology and materials engineering, shaping the next generation of scientists and engineers.
Notable Publications
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Title: Performance enhancement of rechargeable zinc-air battery through synergistic ex-solution of multi-component Pt/CoWO₄₋ₓ catalysts
Author(s): Changho Lee, Chang-kyu Hwang, Jung-won An, Sunyong Caroline Lee, Ki Ro Yoon
Journal: Applied Catalysis B: Environmental, 2024
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Title: The superior mineralization potential of a graphitic carbon nitride/titanium dioxide composite and its application in the construction of a portable photocatalytic air purification system against gaseous formaldehyde
Author(s): Myeonseong Cho, Sherif A. Younis, Sunyong Caroline Lee, Xiaowei Li, Ki Hyun Kim
Journal: Journal of Materials Chemistry A, 2024
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Title: Fabrication of Fe-4.5 wt% Si core-shell soft magnetic composite (SMC) via milling assisted pressureless sintering method for high-frequency application
Author(s): Taehyeob Im, Kwiyoung Lee, Jonghyeok Ahn, Jongryoul Kim, Sunyong Caroline Lee
Journal: Journal of Materials Research and Technology, 2024
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Title: Construction of highly porous Z-scheme CuSe₂/ZnSe heterostructure to achieve efficient CO₂ photoreduction activity
Author(s): Hazina Charles, Plassidius J. Chengula, Heungseok Oh, Sunyong Caroline Lee
Journal: Surfaces and Interfaces, 2024
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Title: Introduction to subpressure-driven soft deformation method for removing inherent voids in green components manufactured by material extrusion
Author(s): Taehyeob Im, Heungseok Oh, Byeonghwa Goh, Joonmyung C. Choi, Sunyong Caroline Lee
Journal: Heliyon, 2024