J
Jae Hee Jung
Researcher at Sejong University
Publications - 102
Citations - 2432
Jae Hee Jung is an academic researcher from Sejong University. The author has contributed to research in topics: Air filter & Bioaerosol. The author has an hindex of 24, co-authored 96 publications receiving 1878 citations. Previous affiliations of Jae Hee Jung include Korea University & KAIST.
Papers
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Journal ArticleDOI
Highly Stretchable, Hysteresis-Free Ionic Liquid-Based Strain Sensor for Precise Human Motion Monitoring.
Dong Yun Choi,Min Hyeong Kim,Yong Suk Oh,Soo Ho Jung,Jae Hee Jung,Hyung Jin Sung,Hyung Woo Lee,Hye Moon Lee +7 more
TL;DR: It is demonstrated that the wavy structure can offer lower energy dissipation compared to a flat structure under a given deformation.
Journal ArticleDOI
Metal nanoparticle generation using a small ceramic heater with a local heating area
TL;DR: In this article, a small ceramic heater with a local heating area was used to synthesize metal nanoparticles and the results showed that the geometric mean diameter, the geometric standard deviation, and the total number concentration of nanoparticles increase with heater surface temperature.
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Preparation of Airborne Ag/CNT Hybrid Nanoparticles Using an Aerosol Process and Their Application to Antimicrobial Air Filtration
TL;DR: These Ag-coated CNT hybrid nanoparticles (Ag/CNTs) prepared using aerosol nebulization and thermal evaporation/condensation processes and tested their usefulness for antimicrobial air filtration may be useful for applications in biomedical devices and antibacterial control systems.
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Herbal Extract Incorporated Nanofiber Fabricated by an Electrospinning Technique and its Application to Antimicrobial Air Filtration.
TL;DR: Herbal extract incorporated (HEI) nanofibers synthesized by an electrospinning technique and their application to antimicrobial air filtration will facilitate the implementation of electrospun HEI nanofiber techniques to control air quality and protect against hazardous airborne microorganisms.
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Thermal effects on bacterial bioaerosols in continuous air flow.
TL;DR: The results show that thermal heating in a continuous air flow can be used with short exposure time to control bacterial bioaerosols by rendering the bacteria and endotoxins to a large extent inactive, and could be useful for developing more effective thermal treatment strategies for use in air purification or sterilization systems to control bioaerOSols.