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Bong Hoon Kim
Researcher at Soongsil University
Publications - 106
Citations - 8268
Bong Hoon Kim is an academic researcher from Soongsil University. The author has contributed to research in topics: Graphene & Copolymer. The author has an hindex of 41, co-authored 94 publications receiving 6350 citations. Previous affiliations of Bong Hoon Kim include KAIST & Northwestern University.
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Journal ArticleDOI
Waterproof AlInGaP optoelectronics on stretchable substrates with applications in biomedicine and robotics
Rak-Hwan Kim,Dae-Hyeong Kim,Jianliang Xiao,Jianliang Xiao,Bong Hoon Kim,Bong Hoon Kim,Sang Il Park,Bruce Panilaitis,Roozbeh Ghaffari,Jimin Yao,Ming Li,Ming Li,Zhuangjian Liu,Viktor Malyarchuk,Dae Gon Kim,An Phong Le,Ralph G. Nuzzo,David L. Kaplan,Fiorenzo G. Omenetto,Yonggang Huang,Zhan Kang,John A. Rogers +21 more
TL;DR: In this paper, the authors describe systems that consist of arrays of interconnected, ultrathin inorganic light-emitting diodes and photodetectors configured in mechanically optimized layouts on unusual substrates.
Journal ArticleDOI
Skin-integrated wireless haptic interfaces for virtual and augmented reality.
Xinge Yu,Zhaoqian Xie,Yang Yu,Yang Yu,Jungyup Lee,Abraham Vázquez-Guardado,Haiwen Luan,Jasper Ruban,Xin Ning,Aadeel Akhtar,Dengfeng Li,Bowen Ji,Bowen Ji,Yiming Liu,Rujie Sun,Jingyue Cao,Qingze Huo,Yishan Zhong,Chan Mi Lee,Seung Yeop Kim,Philipp Gutruf,Changxing Zhang,Yeguang Xue,Qinglei Guo,Aditya Chempakasseril,Peilin Tian,Wei Lu,Ji Yoon Jeong,Yong Joon Yu,Jesse Cornman,Chee Sim Tan,Bong Hoon Kim,Bong Hoon Kim,Kun Hyuk Lee,Xue Feng,Yonggang Huang,John A. Rogers,John A. Rogers +37 more
TL;DR: A wireless, battery-free platform of electronic systems and haptic interfaces capable of softly laminating onto the curved surfaces of the skin to communicate information via spatio-temporally programmable patterns of localized mechanical vibrations is presented.
Journal ArticleDOI
Binodal, wireless epidermal electronic systems with in-sensor analytics for neonatal intensive care
Ha Uk Chung,Bong Hoon Kim,Jong Yoon Lee,Jungyup Lee,Zhaoqian Xie,E. Ibler,E. Ibler,Kun Hyuck Lee,Anthony Banks,Ji Yoon Jeong,Jongwon Kim,Jongwon Kim,Christopher Ogle,Dominic Grande,Yongjoon Yu,Hokyung Jang,Pourya Assem,Dennis Ryu,Jean Won Kwak,Myeong Namkoong,Jun Bin Park,Yechan Lee,Do Hoon Kim,Arin Ryu,Jaeseok Jeong,Kevin You,Bowen Ji,Zhuangjian Liu,Qingze Huo,Xue Feng,Yujun Deng,Yujun Deng,Yeshou Xu,Yeshou Xu,Kyung In Jang,Jeonghyun Kim,Yihui Zhang,Roozbeh Ghaffari,Casey M. Rand,Molly Schau,Aaron Hamvas,Debra E. Weese-Mayer,Yonggang Huang,Seungmin Lee,Chi Hwan Lee,Naresh R. Shanbhag,Amy S. Paller,Amy S. Paller,Shuai Xu,John A. Rogers +49 more
TL;DR: It is now possible to fabricate wireless, battery-free vital signs monitoring systems based on ultrathin, “skin-like” measurement modules that can gently and noninvasively interface onto the skin of neonates with gestational ages down to the edge of viability.
Journal ArticleDOI
Bioresorbable silicon electronics for transient spatiotemporal mapping of electrical activity from the cerebral cortex
Ki Jun Yu,Duygu Kuzum,Duygu Kuzum,Suk Won Hwang,Bong Hoon Kim,Halvor Juul,Nam Heon Kim,Sang Min Won,Ken Chiang,Michael Trumpis,Andrew G. Richardson,Huanyu Cheng,Hui Fang,Marissa E. Thompson,Hank Bink,Delia M. Talos,Kyung Jin Seo,Hee Nam Lee,Seung-Kyun Kang,Jae Hwan Kim,Jung Yup Lee,Younggang Huang,Frances E. Jensen,Marc A. Dichter,Timothy H. Lucas,Jonathan Viventi,Brian Litt,John A. Rogers +27 more
TL;DR: This technology offers general applicability in neural interfaces, with additional potential utility in treatment of disorders where transient monitoring and modulation of physiologic function, implant integrity and tissue recovery or regeneration are required.
Journal ArticleDOI
High-resolution patterns of quantum dots formed by electrohydrodynamic jet printing for light-emitting diodes.
Bong Hoon Kim,M. Serdar Onses,Jong Bin Lim,Sooji Nam,Nuri Oh,Hojun Kim,Ki Jun Yu,Jung Woo Lee,Jae Hwan Kim,Seung-Kyun Kang,Chi Hwan Lee,Jungyup Lee,Jae Ho Shin,Nam Heon Kim,Cecilia Leal,Moonsub Shim,John A. Rogers +16 more
TL;DR: Material and operating conditions that allow for high-resolution printing of layers of quantum dots (QDs) with precise control over thickness and submicron lateral resolution and capabilities for use as active layers of QD light-emitting diodes (LEDs) are demonstrated.