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Yishan Zhong
Researcher at University of Illinois at Urbana–Champaign
Publications - 7
Citations - 694
Yishan Zhong is an academic researcher from University of Illinois at Urbana–Champaign. The author has contributed to research in topics: Flexible electronics & Silicon. The author has an hindex of 5, co-authored 6 publications receiving 307 citations.
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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
Long-Lived, Transferred Crystalline Silicon Carbide Nanomembranes for Implantable Flexible Electronics.
Hoang-Phuong Phan,Hoang-Phuong Phan,Yishan Zhong,Tuan-Khoa Nguyen,Yoonseok Park,Toan Dinh,Enming Song,Enming Song,Raja Vadivelu,Mostafa Kamal Masud,Jinghua Li,Jinghua Li,Jinghua Li,Muhammad J. A. Shiddiky,Dzung Dao,Yusuke Yamauchi,Yusuke Yamauchi,Yusuke Yamauchi,John A. Rogers,Nam-Trung Nguyen +19 more
TL;DR: The experimental results demonstrate that SiC nanomembranes with thicknesses of 230 nm do not experience the hydrolysis process, which creates important opportunities for use of flexible, wide band gap materials as essential components of long-lived neurological and cardiac electrophysiological device interfaces.
Journal ArticleDOI
Conductively coupled flexible silicon electronic systems for chronic neural electrophysiology
Jinghua Li,Jinghua Li,Enming Song,Enming Song,Chia-Han Chiang,Ki Jun Yu,Jahyun Koo,Jahyun Koo,Haina Du,Yishan Zhong,Mackenna Hill,Charles Wang,Jize Zhang,Yisong Chen,Limei Tian,Yiding Zhong,Guanhua Fang,Jonathan Viventi,John A. Rogers,John A. Rogers +19 more
TL;DR: A materials and integration strategy that combines highly doped silicon nanomembranes chemically bonded to thin films of thermal silicon dioxide in a construct that simultaneously serves as a biofluid barrier and a conductively coupled biointerface is presented.
Journal ArticleDOI
Ultrathin, Transferred Layers of Metal Silicide as Faradaic Electrical Interfaces and Biofluid Barriers for Flexible Bioelectronic Implants.
Jinghua Li,Jinghua Li,Rui Li,Haina Du,Yishan Zhong,Yisong Chen,Kewang Nan,Sang Min Won,Jize Zhang,Yonggang Huang,John A. Rogers,John A. Rogers +11 more
TL;DR: A construct that extends this time scale by more than a factor of 20 through the replacement of doped silicon with a metal silicide alloy (TiSi2) and an integration scheme that exploits ultrathin, electronic microcomponents manipulated by the techniques of transfer printing yields high-performance active systems with excellent characteristics.
Journal ArticleDOI
Performance Evaluation of a Wearable Tattoo Electrode Suitable for High-Resolution Surface Electromyogram Recording
Sourav Chandra,Jinghua Li,Babak Afsharipour,Andres F. Cardona,Nina L. Suresh,Limei Tian,Yujun Deng,Yishan Zhong,Zhaoqian Xie,Haixu Shen,Yonggang Huang,John A. Rogers,William Z. Rymer +12 more
TL;DR: The tattoo grid electrode can facilitate high fidelity recording in clinical applications such as tracking the evolution and time-course of challenging neuromuscular degenerative disorders and is a potentially valuable component of future HD electrode grid applications.