L
Liping Zhu
Researcher at Zhejiang University
Publications - 409
Citations - 17859
Liping Zhu is an academic researcher from Zhejiang University. The author has contributed to research in topics: Membrane & Thin film. The author has an hindex of 65, co-authored 357 publications receiving 14917 citations.
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Journal ArticleDOI
Self-powered textile for wearable electronics by hybridizing fiber-shaped nanogenerators, solar cells, and supercapacitors
Zhen Wen,Zhen Wen,Zhen Wen,Min-Hsin Yeh,Min-Hsin Yeh,Hengyu Guo,Hengyu Guo,Jie Wang,Yunlong Zi,Weidong Xu,Jianan Deng,Lei Zhu,Xin Wang,Chenguo Hu,Liping Zhu,Xuhui Sun,Zhong Lin Wang,Zhong Lin Wang +17 more
TL;DR: A hybridized self-powered textile for simultaneously collecting solar energy and random body motion energy was demonstrated and can be easily woven into electronic textiles to fabricate smart clothes to sustainably operate mobile or wearable electronics.
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Surface Characteristics of a Self-Polymerized Dopamine Coating Deposited on Hydrophobic Polymer Films
TL;DR: It is indicated that the deposition behavior of pDA is not strongly dependent on the nature of the substrates, and effective strategies for exploiting the properties of dopamine to create novel functional polymer materials are found.
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A facile method of surface modification for hydrophobic polymer membranes based on the adhesive behavior of poly(DOPA) and poly(dopamine)
TL;DR: In this article, a modified 3,4-dihydroxyphenylalanine (DOPA) and dopamine self-polymerized and adhered firm to the membrane surfaces in mild aqueous environments.
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Structural, optical, and electrical properties of (Zn,Al)O films over a wide range of compositions
TL;DR: In this paper, the structural, optical, and electrical properties of (Zn,Al)O thin films were detailedly and systematically studied, and the optimal results of n-type AZO films were obtained at an Al content of 4at.
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Antifouling and Antimicrobial Polymer Membranes Based on Bioinspired Polydopamine and Strong Hydrogen-Bonded Poly(N-vinyl pyrrolidone)
TL;DR: The strategy of material surface modification reported here is substrate-independent, and applicable to a broad range of materials and geometries, which allows effective development of materials with novel functional coatings based on the mussel-inspired surface chemistry.