Yuee Chen
Beihang University
6 Papers
Yuee Chen is an academic researcher from Beihang University. The author has contributed to research in topics: Wetting & Surface tension. The author has an hindex of 6, co-authored 6 publications.
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Papers
A Robust Cu(OH)2 Nanoneedles Mesh with Tunable Wettability for Nonaqueous Multiphase Liquid Separation.
TL;DR: The separation of organic liquid mixtures is achieved by Cu(OH)2 nanoneedle-covered copper mesh based on the difference of the liquid surface tension using an as-prepared membrane.
100
Pine-branch-like TiO2 nanofibrous membrane for high efficiency strong corrosive emulsion separation
Yuanyuan Zhang,Yuee Chen,Lanlan Hou,Fengyun Guo,Jingchong Liu,Shanshan Qiu,Yue Xu,Nü Wang,Yong Zhao +8 more
TL;DR: In this paper, a pine-branch-like TiO2 nanofibrous membrane was fabricated via an electrospinning and hydrothermal process to separate highly corrosive acidic (pH 14) and salty oil-in-water emulsions.
83
Separation of organic liquid mixture by flexible nanofibrous membranes with precisely tunable wettability
Lanlan Hou,Li Wang,Nü Wang,Nü Wang,Fengyun Guo,Jing Liu,Yuee Chen,Jingchong Liu,Yong Zhao,Lei Jiang +9 more
TL;DR: In this paper, a flexible wettability-tunable nanofibrous membrane composed of a high-performance fluoro-polymer as the matrix and fluorosilane as a surface energy regulator was successfully applied in immiscible organic liquid mixture separation.
67
An electrospun strong PCL/PU composite vascular graft with mechanical anisotropy and cyclic stability
Fengyun Guo,Nü Wang,Nü Wang,Li Wang,Lanlan Hou,Lan Ma,Jing Liu,Yuee Chen,Bingbing Fan,Yong Zhao +9 more
TL;DR: In this article, a strong PCL/PU (polycaprolactone/polyurethane) vascular graft was fabricated using electrospinning and showed an obvious mechanical enhancement with strength up to 69.95 MPa.
59
A Co3O4 nano-needle mesh for highly efficient, high-flux emulsion separation
Yuee Chen,Nü Wang,Nü Wang,Fengyun Guo,Lanlan Hou,Jingchong Liu,Jing Liu,Yue Xu,Yong Zhao,Lei Jiang +9 more
TL;DR: In this paper, a Co3O4 nano-needle steel mesh was prepared by a facile hydrothermal synthesis and subsequent calcination method, which is superhydrophilic in air and superoleophobic low-adhesive underwater.