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Jeong, Hoon Eui (정훈의)

Department
Department of Mechanical Engineering(기계공학과)
Website
http://mbm.unist.ac.kr/
Lab
Multiscale Biomimetics and Manufacturing Lab. (멀티스케일 생체모사 및 공정기술 연구실)
Research Keywords
멀티스케일 공정 기술, 마이크로/나노 공정, 생체 모사 구조, 소재 및 시스템, 바이오멤스 시스템 및 의료 기기, Biomimetics, Multiscale manufacturing, Micro/nanofabrication, Bio-Inspired Structures, Materials and Systems, Biomedical Devices, BioMEMS and Biomedical Devices
Research Interests
Elucidating the underlying principles of biological systems will enable us to develop more reliable, efficient, and environment-friendly biomimetic devices and systems with advanced performances. Our group’s efforts are focused on the development of advanced biomimetic structures, devices, and systems to tackle current engineering challenges. To achieve this goal, we investigate the mechanics of macro, micro, and nanoscale components in nature using fundamental principles of mechanical engineering, and mimic their unique structures and functions with innovative multiscale manufacturing techniques.
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Issue DateTitleAuthor(s)TypeViewAltmetrics
2011-08Anisotropic Adhesion Properties of Triangular-Tip-Shaped MicropillarsKwak, Moon Kyu; Jeong, Hoon Eui; Bae, Won Gyu, et alARTICLE1140 Anisotropic Adhesion Properties of Triangular-Tip-Shaped Micropillars
2010-05Bio-inspired slanted polymer nanohairs for anisotropic wetting and directional dry adhesionKwak, Moon Kyu; Jeong, Hoon Eui; Kim, Tae-Il, et alARTICLE1405 Bio-inspired slanted polymer nanohairs for anisotropic wetting and directional dry adhesion
2010-02Stretchable, Adhesion-Tunable Dry Adhesive by Surface WrinklingJeong, Hoon Eui; Kwak, Moon Kyu; Suh, Kahp Y.ARTICLE1085 Stretchable, Adhesion-Tunable Dry Adhesive by Surface Wrinkling
2010-01Effect of leaning angle of gecko-inspired slanted polymer nanohairs on dry adhesionJeong, Hoon Eui; Lee, Jin-Kwan; Kwak, Moon Kyu, et alARTICLE994 Effect of leaning angle of gecko-inspired slanted polymer nanohairs on dry adhesion
2009-12UV-assisted capillary force lithography for engineering biomimetic multiscale hierarchical structures: From lotus leaf to gecko foot hairsJeong, Hoon Eui; Kwak, Rhokyun; Khademhosseini, Ali, et alARTICLE1231 UV-assisted capillary force lithography for engineering biomimetic multiscale hierarchical structures: From lotus leaf to gecko foot hairs
2009-11Wettability of nanoengineered dual-roughness surfaces fabricated by UV-assisted capillary force lithographyJeong, Hoon Eui; Kwak, Moon Kyu; Park, Chan Ick, et alARTICLE966 Wettability of nanoengineered dual-roughness surfaces fabricated by UV-assisted capillary force lithography
2009-10Adhesion hysteresis of Janus nanopillars fabricated by nanomolding and oblique metal depositionYoon, Hyunsik; Jeong, Hoon Eui; Kim, Tae-il, et alARTICLE1123 Adhesion hysteresis of Janus nanopillars fabricated by nanomolding and oblique metal deposition
2009-08Nanohairs and nanotubes: Efficient structural elements for gecko-inspired artificial dry adhesivesJeong, Hoon Eui; Suh, Kahp Y.ARTICLE1246 Nanohairs and nanotubes: Efficient structural elements for gecko-inspired artificial dry adhesives
2009-08Wetting transition and optimal design for microstructured surfaces with hydrophobic and hydrophilic materialsPark, Chan Ick; Jeong, Hoon Eui; Lee, Sung Hoon, et alARTICLE1045 Wetting transition and optimal design for microstructured surfaces with hydrophobic and hydrophilic materials
2009-06Stooped Nanohairs: Geometry-Controllable, Unidirectional, Reversible, and Robust Gecko-like Dry AdhesiveKim, Tae-il; Jeong, Hoon Eui; Suh, Kahp Y., et alARTICLE1020 Stooped Nanohairs: Geometry-Controllable, Unidirectional, Reversible, and Robust Gecko-like Dry Adhesive
2009-04Fabrication of Monolithic Bridge Structures by Vacuum-Assisted Capillary-Force LithographyKwak, Rhokyun; Jeong, Hoon Eui; Suh, Kahp Y.ARTICLE950 Fabrication of Monolithic Bridge Structures by Vacuum-Assisted Capillary-Force Lithography
2009-04A nontransferring dry adhesive with hierarchical polymer nanohairsJeong, Hoon Eui; Lee, Jin-Kwan; Kim, Hong Nam, et alARTICLE1510 A nontransferring dry adhesive with hierarchical polymer nanohairs
2008-11Generation and Self-Replication of Monolithic, Dual-Scale Polymer Structures by Two-Step Capillary-Force LithographyJeong, Hoon Eui; Kwak, Rhokyun; Kim, Jae Kwan, et alARTICLE1054 Generation and Self-Replication of Monolithic, Dual-Scale Polymer Structures by Two-Step Capillary-Force Lithography
2008-10On the role of oxygen in fabricating microfluidic channels with ultraviolet curable materialsJeong, Hoon Eui; Suh, Kahp Y.ARTICLE816 On the role of oxygen in fabricating microfluidic channels with ultraviolet curable materials
2008-02Fabrication of hollow polymeric microstructures for shear-protecting cell containersLee, Sung-Hoon; Jeong, Hoon-Eui; Park, Min-Cheol, et alARTICLE925 Fabrication of hollow polymeric microstructures for shear-protecting cell containers
2008-02High aspect-ratio polymer nanostructures by tailored capillarity and adhesive forceJeong, Hoon Eui; Lee, Sung Hoon; Kim, Pinam, et alARTICLE987 High aspect-ratio polymer nanostructures by tailored capillarity and adhesive force
2007-05Capillary kinetics of water in homogeneous, hydrophilic polymeric micro- to nanochannelsJeong, Hoon Eui; Kim, Pilnam; Kwak, Moon Kyoo, et alARTICLE933 Capillary kinetics of water in homogeneous, hydrophilic polymeric micro- to nanochannels
2007-05Replication of surfaces of natural leaves for enhanced micro-scale tribological propertySingh, R. Arvind; Yoon, Eui-Sung; Kim, Hong Joon, et alARTICLE874 Replication of surfaces of natural leaves for enhanced micro-scale tribological property
2007-05Enhanced tribological properties of lotus leaf-like surfaces fabricated by capillary force lithographySingh, R. A.; Yoon, E.-S.; Kim, H. J., et alARTICLE943 Enhanced tribological properties of lotus leaf-like surfaces fabricated by capillary force lithography
2007-04A biomimetic approach for effective reduction in micro-scale friction by direct replication of topography of natural water-repellent surfacesSingh, R. Arvind; Kim, Hong Joon; Kim, Jinseok, et alARTICLE1023 A biomimetic approach for effective reduction in micro-scale friction by direct replication of topography of natural water-repellent surfaces

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