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12 results on '"Kim, Hyeonggyun"'

1. Nanodevice-Enabled Near-Field Thermal Radiation between Sub-Wavelength Surfaces

Author

Luo, Xiao, Salihoglu, Hakan, Wang, Zexiao, Li, Zhuo, Kim, Hyeonggyun, Li, Jiayu, Yu, Bowen, Du, Shen, and Shen, Sheng

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

With the continuous advancement of nanotechnology, nanodevices have become crucial components in computing, sensing and energy conversion applications. However, the structures of nanodevices typically possess sub-wavelength dimensions and separations, which pose significant challenges for understanding energy transport phenomena in nanodevices. Here, based on a judiciously designed thermal nanodevice, we report the first measurement of near-field energy transport between two coplanar sub-wavelength structures over temperature bias up to ~190 K. Our experimental results demonstrate a remarkable 20-fold enhancement in heat transfer beyond blackbody radiation. In contrast with the well-established near-field interactions between two semi-infinite bodies, the sub-wavelength confinements in nanodevices lead to the increased polariton scattering and the reduction of supporting modes and therefore a lower heat flow at a given separation. Our work unveils exciting opportunities for the rational design of nanodevices, particularly for on-chip near-field energy transport, with important implications for the development of efficient nanodevices for energy harvesting and thermal management., Comment: 35 pages, 19 figures, 2 tables

Published
2023

2. Electrically Driven Thermal Infrared Metasurface with Narrowband Emission

Author

Liu, Xiu, Jing, Lin, Luo, Xiao, Yu, Bowen, Du, Shen, Wang, Zexiao, Kim, Hyeonggyun, Zhong, Yibai, and Shen, Sheng

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Metasurfaces consisting of an array of planar sub-wavelength structures have shown great potentials in controlling thermal infrared radiation, including intensity, coherence, and polarization. These capabilities together with the two-dimensional nature make thermal metasurfaces an ultracompact multifunctional platform for infrared light manipulation. Integrating the functionalities, such as amplitude, phase (spectrum and directionality), and polarization, on a single metasurface offers fascinating device responses. However, it remains a significant challenge to concurrently optimize the optical, electrical, and thermal responses of a thermal metasurface in a small footprint. In this work, we develop a center-contacted electrode line design for a thermal infrared metasurface based on a gold nanorod array, which allows local Joule heating to electrically excite the emission without undermining the localized surface plasmonic resonance. The narrowband emission of thermal metasurfaces and their robustness against temperature nonuniformity demonstrated in this work have important implications for the applications in infrared imaging, sensing, and energy harvesting., Comment: 9 pages, 4 figures

Published
2022
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4. An Integrated Assessment Framework of Economic, Environmental, and Human Health Impacts Using Scan-to-BIM and Life-Cycle Assessment in Existing Buildings.

Author

Kim, Sohyun, Kim, Hyeonggyun, Lee, Jaewook, Hong, Taehoon, and Jeong, Kwangbok

Subjects
*PRODUCT life cycle assessment, *INFORMATION modeling, *ENVIRONMENTAL economics, *ENVIRONMENTAL auditing, *ENVIRONMENTAL management, *BUILDING-integrated photovoltaic systems
Abstract

The significance of environmental management of existing buildings in reducing the environmental impact of the construction sector is increasingly emphasized. However, life-cycle assessment (LCA) to evaluate a building's environmental burden requires considerable time and costs for the collection and interpretation of data needed for analysis. Therefore, this study proposed an integrated assessment framework of economic, environmental, and human health impacts using scan-to-building information modeling (BIM) and LCA in existing buildings. To verify the proposed framework, a case study was conducted. A BIM model with an error rate of 1.442% can be automatically generated from the three-dimensional (3D) point cloud using parametric algorithm. The total cost for the target case was calculated at USD 162,769, and the environmental cost accounted for the largest percentage at 97.15%. The developed framework in this study holds significance because it enables the automated assessment of economic, environmental, and human health impacts of existing buildings through the integration of BIM and LCA. [ABSTRACT FROM AUTHOR]

Published
2023
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