Dr. Byunghong Lee | Hyundai Motor Group | South Korea
Dr. Byunghong Lee is a materials scientist with expertise in advanced electrochemical systems and clean energy technologies. His research focuses on transparent photovoltaics, perovskite solar cells, and radiative-cooling materials for energy-efficient applications. He develops electrochromic smart windows and multifunctional nanomaterials for sustainable buildings and smart-city solutions. His work includes designing high-performance metal oxides for energy harvesting and storage systems. He explores hybrid inorganic–organic materials, photonic crystal structures, and advanced carbon materials for multifunctional devices. Dr. Lee has pioneered scalable fabrication processes for low-cost and air-stable perovskite solar cells. He integrates nanostructured materials into electrodes for lithium-metal batteries and supercapacitors. His research emphasizes energy-efficient, multifunctional device architectures. He has contributed to the development of novel photocatalytic and clean-air filtration materials. Dr. Lee’s studies in photonic crystals enable tunable optical and thermal properties for smart surfaces. He has authored numerous high-impact journal papers, patents, and book chapters in energy and materials science. His work has influenced industrial applications in mobility PV and building-integrated solar systems. He actively participates in national and international research initiatives and advisory committees. Dr. Lee’s contributions bridge fundamental materials science with practical energy solutions. His innovations have earned recognition in clean energy, nanomaterials, and photonic technologies.
Profile: Scopus
Featured Publications
Keum, J., Choi, J., Kim, S., Kang, G., Lee, B., Lee, M. J., & Kim, W. (2025). Innovative dual-band energy-efficient smart windows using VO₂(M)-based Fabry–Pérot structures for solar and radiative cooling modulation. Materials Today Physics.
Jung, Y., Pyun, K. R., Yu, S., Ahn, J., Kim, J., Park, J. J., Lee, M. J., Lee, B., Won, D., Bang, J., & Ko, S. H. (2025). Laser-induced nanowire percolation interlocking for ultrarobust soft electronics. Nano Micro Letters.