Author Page for Hyoungsoon Lee

Capillary-Driven Two-Phase Cooler for High-Heat-Flux Electronics Using Copper Wire Mesh Manifold and Enhanced Copper Inverse Opal Wick Heat Sink

Number of pages: 27 Posted: 28 May 2025

Heungdong Kwon, Roman Giglio, Daeyoung Kong, Md Rubaiet Shattique, Hyoungsoon Lee, James Palko, Ercan Dede, Mehdi Asheghi and Kenneth Goodson

Stanford University, University of California, Merced - Department of Mechanical Engineering, Stanford University, University of California, Merced, Chung-Ang University, University of California, Merced - Department of Mechanical Engineering, Toyota Research Institue of North America, Stanford University and Stanford University

Downloads 82 (907,769)

Abstract:

2.

Experimental Analysis of Biomimetic Silencer to Reduce Exhaust Noise in Pneumatic Devices

Number of pages: 20 Posted: 28 Apr 2023

Duy-Tan Vo, Min Hyeong Ahn, Jihoon Kim, Seung Ryeol Lee, Ui Deok Lee, Dongjun Shin and Hyoungsoon Lee

Chung-Ang University, Chung-Ang University, Chung-Ang University, Yonsei University, Chung-Ang University, Yonsei University and Chung-Ang University

Downloads 61 (951,658)

Abstract:

3.

Thermally Induced Structural Evolution of Diamond Surface for Pool Boiling Enhancement

Number of pages: 26 Posted: 31 May 2025

Yunseo Kim, Daeyoung Kong, Bongho Jang, Taeyeon Kim, Hyuk-Jun Kwon, Jungwan Cho, Jung Bin In and Hyoungsoon Lee

University of Maryland, College Park, Stanford University, affiliation not provided to SSRN, affiliation not provided to SSRN, affiliation not provided to SSRN, affiliation not provided to SSRN, Chung-Ang University and Chung-Ang University

Downloads 56 (1,031,043)

Abstract:

4.

Exploring Capillary limits of Copper Wire Mesh Manifold for Area Scaling of Capillary-Driven Two-Phase Coolers

Number of pages: 30 Posted: 20 Apr 2026

Heungdong Kwon, Roman Giglio, Daeyoung Kong, Md Rubaiet Shattique, Hyoungsoon Lee, James Palko, Ercan Dede, Mehdi Asheghi and Kenneth Goodson

Stanford University, University of California, Merced - Department of Mechanical Engineering, Stanford University, University of California, Merced, Chung-Ang University, University of California, Merced - Department of Mechanical Engineering, Toyota Research Institue of North America, Stanford University and Stanford University

Downloads 20 (1,500,778)

Hyoungsoon Lee

Chung-Ang University

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Scholarly Papers (4)

Capillary-Driven Two-Phase Cooler for High-Heat-Flux Electronics Using Copper Wire Mesh Manifold and Enhanced Copper Inverse Opal Wick Heat Sink

Abstract:

Experimental Analysis of Biomimetic Silencer to Reduce Exhaust Noise in Pneumatic Devices

Abstract:

Thermally Induced Structural Evolution of Diamond Surface for Pool Boiling Enhancement

Abstract:

Exploring Capillary limits of Copper Wire Mesh Manifold for Area Scaling of Capillary-Driven Two-Phase Coolers

Abstract: