Junyong Seo
Ph.D., Department of Mechanical Engineering, KAIST
Address: KAIST, 291 Daehak-ro, Yuseong-gu, Daejeon, 34141, Korea(Republic of)
Email: junyong.seo.4329@kaist.ac.kr / tjwnsdyd460@gmail.com
Tel: +82-42-350-3279 (TRAD Lab. Office)
Office: #7122, ME Building(N7-4)
Education
- Ph.D., Mechanical Engineering, KAIST (2023)
- B.S., Mechanical Engineering(Dual Major: Computer Science), KAIST (2018)
- Early Graduation, Chungbuk Science High School (2013)
Article Contribution (Google Scholar)
< As (Co-)Lead Author >
- J. Seo, M. Choi, J. Lee, and B.J. Lee, “Optimization of a grating structure in hexagonal array with omnidirectional emission for daytime radiative cooling, ” Journal of Quantitative Spectroscopy and Radiative Transfer 284, 108165, 2022.
- J. Song, J. Seo, J. Han, H. Lee, J. Lee, and B.J. Lee, “Ultrahigh emissivity of grating-patterned PDMS film from 8 to 13 μm wavelength regime,” Applied Physics Letters 117(9), 094101, 2020.
- J. Seo, C. Qin, J. Lee, and B.J. Lee, “Tailoring the Spectral Absorption Coefficient of a Blended Plasmonic Nanofluid Using a Customized Genetic Algorithm,” Scientific Reports 10, 8891, 2020.
- J. Seo, P.-H. Jung, M. Kim, S. Yang, I. Lee, J. Lee, H. Lee, and B.J. Lee, “Design of a Broadband Solar Thermal Absorber by Using a Deep Neural Network and Experimental Demonstration of Its Performance,” Scientific Reports 9, 15028, 2019.
< As Co-Author >
- S. Yoon, J. Seo, M. Choi, and B.J. Lee, “Enhanced Photovoltaic Efficiency Through Radiative Cooling Augmented by a Thermosyphon Effect,” Energy Conversion and Management 268, 116046, 2022.
- M. Choi, J. Seo, S. Yoon, Y. Nam, J. Lee, and B.J. Lee, “All-day radiative cooling using a grating-patterned PDMS film emitter,” Applied Thermal Engineering 214, 118771, 2022.
- S. Yoon, D. Chae, J. Seo, M. Choi, H, Lim, H. Lee, and B.J. Lee, “Development of a device for characterizing radiative cooling performance,” Applied Thermal Engineering 213, 118744, 2022.
- S. Yoon, M. Kim, J. Seo, S. Kim, H. Lee, J. Lee, and B.J. Lee, “Performance analysis of a hybrid HVAC system consisting of a solar thermal collector and a radiative cooling panel,” Energy and Buildings 241, 110921, 2021.
- M. Kim, J. Seo, S. Yoon, H. Lee, J. Lee, and B.J. Lee, “Optimization and performance analysis of a multilayer structure for daytime radiative cooling,” Journal of Quantitative Spectroscopy and Radiative Transfer 260, 107475, 2021.
- B. Kang, M. Kim, J. Seo, J. Choi, B.J. Lee, V.L. Le, Y.J. Cho, Y.D. Kim, and B. Min “Partially Spatial Coherent Thermal Emitter Based on an Epsilon-and-mu-near-zero Metamaterial,” Journal of Korean Physical Society 76(10), 889-864, 2020.
- C. Qin, Y. Guo, J. Seo, Y. Shuai, J. Lee, and B.J. Lee, “Absorption characteristics of a metal-insulator-metal nanodisk for solar thermal applications,” Optics Express 28(10), 15731-15743, 2020.
- D. Chae, M. Kim, P.-H. Jung, S. Son, J. Seo, Y. Liu, B.J. Lee, and H. Lee, “Spectrally Selective Inorganic-Based Multilayer Emitter for Daytime Radiative Cooling,” ACS Applied Materials & Interfaces 12(7), 8073-8081, 2020.
Research Interests
- Thermal Radiation
- Electromagnetic Resonance
- Computational Electromagnetics
- Application
- Radiative Cooling
- Solar Thermal Absorber
- Optical Property Measurement
- UV-Vis, FTIR
- Electromagnetic Resonance
- Optimization of Thermal System Design
- Supervised Learning
- Artificial Neural Network
- Search-Based Optimization
- Evolutionary Computation
- Swarm Intelligence
- Topology Optimization
- FEM
- Sensitivity Analysis
- Supervised Learning