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Luquan Ren
Researcher at Jilin University
Publications - 663
Citations - 12543
Luquan Ren is an academic researcher from Jilin University. The author has contributed to research in topics: Microstructure & Medicine. The author has an hindex of 45, co-authored 510 publications receiving 8193 citations. Previous affiliations of Luquan Ren include Chinese Ministry of Education.
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A electro-deposition process for fabrication of biomimetic super-hydrophobic surface and its corrosion resistance on magnesium alloy
TL;DR: In this article, a super-hydrophobic surface with self-cleaning was successfully deposited on AZ91D magnesium alloy by the nickel plating process, and the surface morphologies, chemical composition, wettability and corrosion resistance were characterized by means of SEM, FT-IR, water contact angle and electrochemical impedance spectroscopy (EIS) measurements.
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High-Performance Ionic-Polymer–Metal Composite: Toward Large-Deformation Fast-Response Artificial Muscles
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Corrosion inhibition of biomimetic super-hydrophobic electrodeposition coatings on copper substrate
TL;DR: Inspired by the special microstructure of plant leaves such as lotus leaves, this paper prepared super-hydrophobic surfaces by a fast, facile, and one-step electrodeposition on copper substrates.
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Flourishing Bioinspired Antifogging Materials with Superwettability: Progresses and Challenges
TL;DR: Recent developments of the mechanism, fabrication, and applications of bioinspired AF materials with superwettability are focused on, including information on constructing superwetting AF materials based on designing the topographical structure and regulating the surface chemical composition.
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Shape memory superhydrophobic surface with switchable transition between “Lotus Effect” to “Rose Petal Effect”
Shao Yanlong,Jie Zhao,Yong Fan,Zhenping Wan,Longsheng Lu,Zhihui Zhang,Weihua Ming,Luquan Ren +7 more
TL;DR: In this paper, a shape memory polymer SMP micro/nanostructures is used to control shape memory and shape memory effect of SMP arrays, which can display a multiply switchable transition between the lotus effect and the rose petal effect.