T
Tao Hua
Researcher at Hong Kong Polytechnic University
Publications - 93
Citations - 2746
Tao Hua is an academic researcher from Hong Kong Polytechnic University. The author has contributed to research in topics: Spinning & Woven fabric. The author has an hindex of 21, co-authored 82 publications receiving 1935 citations. Previous affiliations of Tao Hua include University of California, Davis.
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In-Shoe Plantar Pressure Measurement and Analysis System Based on Fabric Pressure Sensing Array
TL;DR: An in-shoe plantar pressure measurement and analysis system based on a textile fabric sensor array, which is soft, light, and has a high-pressure sensitivity and a long service life is presented.
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Flexible Organic Electronics in Biology: Materials and Devices
TL;DR: This review will firstly discuss the materials used in flexible organic bioelectronics, which is followed by an overview on various types of flexibleorganic bioelectronic devices.
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Fiber‐Based Thermoelectric Generators: Materials, Device Structures, Fabrication, Characterization, and Applications
TL;DR: Fiber-based flexible thermoelectric energy generators are 3D deformable, lightweight, and desirable for applications in large-area waste heat recovery, and as energy suppliers for wearable or mobile electronic systems in which large mechanical deformations, high energy conversion efficiency, and electrical stability are greatly demanded.
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An easily manipulated protocol for patterning of MXenes on paper for planar micro-supercapacitors
TL;DR: In this article, a simple protocol for fast and on-demand patterning of few-layered MXene flakes on paper into a coplanar arrangement to fabricate planar symmetric MSCs is reported.
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Electromechanical properties of a yarn strain sensor with graphene-sheath/polyurethane-core
Xiaoting Li,Tao Hua,Bingang Xu +2 more
TL;DR: In this article, a yarn strain sensor based on commonly used polyurethane yarn which is easily incorporated into textile structures by using textile technologies for wearable applications is presented. And the combined effects of graphene concentration and number of coatings on sensor properties are elucidated, and on that basis, the electromechanical properties can be modified by adjusting the parameters.