Hao Wu
7 Papers
2 Citations
Hao Wu is an academic researcher. The author has contributed to research in topics: Medicine & Energy harvesting. The author has an hindex of 3, co-authored 6 publications.
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Papers
Remote‐Controlled Droplet Chains‐Based Electricity Generators
Huanxi Zheng,Hao Wu,Zhiran Yi,Yuxin Song,Wanghuai Xu,Xiantong Yan,Xiaofeng Zhou,Steven Wang,Zuankai Wang +8 more
TL;DR: In this article , a two drain electrodes are designed to collect and release electrostatically induced charges from recurring droplets in the confined channel, respectively, thereby eliminating unwanted charge accumulation on recurring liquid droplets and leading to efficient output performance.
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Liquid‐Interfaces‐Based Triboelectric Nanogenerator: An Emerging Power Generation Method from Liquid‐Energy Nexus
TL;DR: In this article , the authors reviewed the factors affecting triboelectric charge generation and the output performance of liquid interfaces-based TENGs in terms of material, environment, and structure.
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Three Dimensional Printing of Bioinspired Crossed-Lamellar Metamaterials with Superior Toughness for Syntactic Foam Substitution.
Hao Wu,Juzheng Chen,Ke Duan,Meng Zhu,Yuan Hou,Jingzhuo Zhou,Yukun Ren,Hongyuan Jiang,Rong Fan,Yang Lu +9 more
TL;DR: In this article , a novel bioinspired design strategy that combines regional particularity and overall cyclicity is proposed to innovate the connotation of long-range periodicity inside the metamaterial, in which the node constraint gradient and crossed-lamellar struts corresponding to the core features of conch shells are able to guide the deformation sequence with a self-strengthening response during compression.
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Fabrication of syntactic foam fillers via integrated on/off-chip microfluidic methods for optimized geopolymer composites.
TL;DR: In this article , a microfluidic expansion coupled with thermal contraction method was proposed to improve the fabrication of syntactic foam fillers (SFFs), highlighted by the independently regulated parameters in contrast to the hydrodynamic regulation approach.
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Ductile amorphous boron nitride microribbons.
Meng Zhu,Jing Zhou,ZeZhou He,Yan Zhang,Hao Wu,Juzheng Chen,Yinbo Zhu,YuanZhen Hou,HengAn Wu,Yang Lu +9 more
TL;DR: Amorphous boron nitride microribbons exhibit substantial tensile ductility, with a maximum fracture elongation of over 50%, and demonstrate flaw-tolerance behavior, as revealed through in situ mechanical testing.
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