Korea Advanced Institute of Science and Technology | South Korea
Professor Hee-Tae Jung is a leading global scientist in chemical and biomolecular engineering whose research centers on developing advanced functional nanomaterials and nanostructures to address critical climate-related and environmental challenges. As Chair Professor at KAIST and Director of multiple international research centers including the Saudi Aramco-KAIST CO₂ Management Center and the KAIST-UCB-VNU Global Climate Change Research Center, he leads multidisciplinary teams focused on creating transformative technologies for greenhouse gas mitigation, sustainable energy production, and high-performance sensor systems. His research group, OOEM, pioneers both top-down and bottom-up nanofabrication approaches, introducing innovations such as secondary sputtering, soft-lithography, supramolecular self-assembly, and advanced nano-patterning. These techniques enable precise control of material architectures to achieve unprecedented performance in catalytic, sensing, and energy-conversion applications. A central aim of his work is to bridge fundamental nanoscience with industrial-scale practical devices, accelerating translation of high-impact research into real-world environmental solutions. Professor Jung’s contributions span CO₂ reduction systems, bifunctional water-splitting catalysts, MXene-based gas sensors with ultrahigh signal-to-noise ratios, deep-learning-assisted chemical sensing, high-density nanoparticle generation via carbothermal shock, and large-area supramolecular alignment. His research has been published in top-tier journals including Nature Electronics, Science Advances, Advanced Materials, Nature Nanotechnology, and ACS Nano. With an exemplary record of leadership serving as President of the Korean Environmental Science Society and Associate Editor for several international journals and numerous prestigious awards, Professor Jung is recognized as one of the most influential scientists in nanomaterials, CO₂ management, and climate-centric engineering innovation. His work continues to shape the future of sustainable materials and technologies.
Featured Publications
-
Continuous biochemical profiling of the gastrointestinal tract using a multiparametric smart capsule. (2025). Nature Electronics, 8, 844.
-
Continuous flow-reactor with superior production rate and stability for CO₂ reduction using semiconductor photocatalysts. (2023). Energy & Environmental Science, 16, 2689.
-
Exploring optimal water splitting bifunctional alloy catalyst by Pareto active learning. (2023). Advanced Materials, 35, 2211497.
-
Atomic-scale homogeneous Ru–Cu alloy nanoparticles for highly efficient electrocatalytic nitrogen reduction. (2022). Advanced Materials, 34, 22055270.
-
Generation of high-density nanoparticles in the carbothermal shock method. (2021). Science Advances, 7, eabk2984.