Z
Zhiyuan Han
Researcher at Tsinghua University
Publications - 43
Citations - 1254
Zhiyuan Han is an academic researcher from Tsinghua University. The author has contributed to research in topics: Chemistry & Electrode. The author has an hindex of 7, co-authored 26 publications receiving 444 citations.
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Journal ArticleDOI
Flexible Hybrid Electronics for Digital Healthcare.
Yinji Ma,Yingchao Zhang,Shisheng Cai,Zhiyuan Han,Xin Liu,Fengle Wang,Yu Cao,Zhouheng Wang,Hangfei Li,Yihao Chen,Xue Feng +10 more
TL;DR: Material innovation and structural design for the preparation of flexible hybrid electronics are reviewed, a brief chronology of these advances is given, and biomedical applications in bioelectrical monitoring and stimulation, optical monitoring and treatment, acoustic imitation and monitoring, bionic touch and body-fluid testing are described.
Journal ArticleDOI
Engineering d-p Orbital Hybridization in Single-Atom Metal-Embedded Three-Dimensional Electrodes for Li-S Batteries.
Zhiyuan Han,Shiyong Zhao,Jiewen Xiao,Xiongwei Zhong,Jinzhi Sheng,Wei Lv,Qianfan Zhang,Guangmin Zhou,Hui-Ming Cheng,Hui-Ming Cheng +9 more
TL;DR: In this paper, a series of single-atom metal catalysts (Me = Mn, Cu, Cr, Ti) embedded in three-dimensional (3D) electrodes are prepared by a controllable nitrogen coordination approach.
Journal ArticleDOI
Flexible inorganic bioelectronics
TL;DR: This review covers recent progresses in flexible inorganic bio-electronics for human physiological parameters’ monitoring in a wearable and continuous way and strategies including materials, structures and device design are introduced with highlights toward the ability to solve remaining challenges in the measurement process.
Journal ArticleDOI
Ultralow-Cost, Highly Sensitive, and Flexible Pressure Sensors Based on Carbon Black and Airlaid Paper for Wearable Electronics.
Zhiyuan Han,Hangfei Li,Xiao Jianliang,Honglie Song,Bo Li,Shisheng Cai,Ying Chen,Yinji Ma,Xue Feng +8 more
TL;DR: This study demonstrates a flexible pressure sensor with low cost, simple preparation, and superior performances, which will open up for the exploration of cost-efficient pressure sensors in wearable devices.
Journal ArticleDOI
Fabrication of highly pressure-sensitive, hydrophobic, and flexible 3D carbon nanofiber networks by electrospinning for human physiological signal monitoring
TL;DR: A pressure sensor designed with the CNFNs is able to monitor human physiological signals, such as phonation, pulse, respiration and human activities, and also presents other versatile characteristics, including ultralight density, hydrophobicity, low thermal conductivity, and low infrared emissivity.