Achieving ultra-stable and superior electricity generation by integrating transistor-like design with lubricant armor
作者机构:Department of Mechanical EngineeringCity University of Hong KongHong Kong 999077China Research Center for Nature-Inspired EngineeringCity University of Hong KongHong Kong 999077China Shenzhen Research Institute of City University of Hong KongShenzhen 518057China School of Chemical Engineering and TechnologySun Yat-sen UniversityZhuhai 519082China
出 版 物:《The Innovation》 (创新(英文))
年 卷 期:2022年第3卷第5期
页 面:122-128页
核心收录:
基 金:support of the Research Grants Council of Hong Kong(nos.C1006-20WF and 11213320) the Tencent Foundation through the XPLORER PRIZE,the Innovation and Technology Council(no.9440248) the National Natural Science Foundation of China(grant nos.51975502 and 21621001) the 111 Project(B17020)
主 题:integrating collective electricity
摘 要:Extensive work have been done to harvest untapped water energy in formats of raindrops,flows,waves,and ***,attaining stable and efficient electricity generation from these low-frequency water kinetic energies at both individual device and large-scale system level remains challenging,partially owing to the difficulty in designing a unit that possesses stable liquid and charge transfer properties,and also can be seamlessly integrated to achieve preferential collective performances without the introduction of tortuous wiring and redundant node connection with external ***,we report the design of water electricity generators featuring the combination of lubricant layer and transistor-like electrode architecture that endows enhanced electrical performances in different working *** a design is scalable in manufacturing and suitable for facile integration,characterized by significant reduction in the numbers of wiring and nodes and elimination of complex interfacing problems,and represents a significant step toward large-scale,real-life applications.
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