Q
Qingshen Jing
Researcher at University of Cambridge
Publications - 66
Citations - 12287
Qingshen Jing is an academic researcher from University of Cambridge. The author has contributed to research in topics: Triboelectric effect & Nanogenerator. The author has an hindex of 39, co-authored 63 publications receiving 9910 citations. Previous affiliations of Qingshen Jing include Peking University & Georgia Institute of Technology.
Papers
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Journal ArticleDOI
Toward large-scale energy harvesting by a nanoparticle-enhanced triboelectric nanogenerator.
Guang Zhu,Zong-Hong Lin,Qingshen Jing,Peng Bai,Caofeng Pan,Caofeng Pan,Ya Yang,Yu Sheng Zhou,Zhong Lin Wang,Zhong Lin Wang +9 more
TL;DR: This work demonstrated the practicability of using NG to harvest large-scale mechanical energy, such as footsteps, rolling wheels, wind power, and ocean waves, by constructing a triboelectric nanogenerator with ultrahigh electric output.
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Radial-arrayed rotary electrification for high performance triboelectric generator
TL;DR: A two-dimensional planar-structured triboelectric generator on the basis of contact electrification that can effectively harness various ambient motions and can be applied not only to self-powered electronics but also possibly to power generation at a large scale.
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Harmonic-resonator-based triboelectric nanogenerator as a sustainable power source and a self-powered active vibration sensor.
Jun Chen,Guang Zhu,Weiqing Yang,Qingshen Jing,Peng Bai,Ya Yang,Te-Chien Hou,Zhong Lin Wang,Zhong Lin Wang +8 more
TL;DR: A harmonic-resonator-based triboelectric nanogenerator (TENG) is presented as a sustainable power source and an active vibration sensor that greatly expands the applicability of TENGs.
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Human Skin Based Triboelectric Nanogenerators for Harvesting Biomechanical Energy and as Self-Powered Active Tactile Sensor System
Ya Yang,Hulin Zhang,Hulin Zhang,Zong-Hong Lin,Yu Sheng Zhou,Qingshen Jing,Yuanjie Su,Jin Yang,Jun Chen,Chenguo Hu,Zhong Lin Wang,Zhong Lin Wang +11 more
TL;DR: Human skin based triboelectric nanogenerators (TENGs) that can either harvest biomechanical energy or be utilized as a self-powered tactile sensor system for touch pad technology are reported.
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Sliding-Triboelectric Nanogenerators Based on In-Plane Charge- Separation Mechanism
TL;DR: This paper demonstrated a newly designed TENG based on an in-plane charge separation process using the relative sliding between two contacting surfaces, providing a new mode of TENGs with diverse applications with high efficiency, easy fabrication, and suitability for many types of mechanical triggering.