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Prof. Dr. Yongmei Zheng
School of Chemistry,Beihang University
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ACS Nano: High-efficiency fog collector
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Address:北京市昌平区高教园南三街9号北京航空航天大学实验七号楼409
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zhengym@buaa.edu.cn
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Current Location :> Home > PUBLICATIONS
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Robust Anti-Icing Performance of Flexible Superhydrophobic Surface.
Orientation-Induced Effects of Water Harvesting on Humps-on-Strings of Bioinspired Fibers
Droplet Manipulation on Wettable Gradient Surfaces with Micro-/Nano-Hierarchical Structure
Excellent Anti-icing Abilities of Optimal Micro-pillars Arrays with Nano-hairs
Controlled Smart Anisotropic Unidirectional Spreading of Droplet on a Fibrous Surface
Wet-Induced Fabrication of Heterogeneous Hump-on-String Fibers.
Driving of Droplet on Nano-Gradient Microhump Surface in Low-Temperature and High-Humidity Environment
Dynamic Magnetic Responsive Wall Array with Droplet Shedding-off Properties.
Radial Wettability Gradient of Hot Surface to Control Droplets Movement in Directions.
Controlling droplet transport to target on a gradient adhesion surface
Controlling of Water Collection Ability by an Elasticity-Regulated Bioinspired Fiber
Bio-inspired Artificial Cilia with Magnetic Dynamic Properties
Spider Silk and Bioinspired Silk on Wettability
Effective self-gathering of drops on splayed micro-tube capillary arrays of spine on cactus.
Water Collection Abilities of Green Bristlegrass Bristle
Bioinspired heterostructured bead-on-string fibers via controlling wet-assembly of nanoparticles
Bioinspired One-Dimensional Materials for Directional Liquid Transport
Directional Drop Transport Achieved on High-Temperature Anisotropic Wetting Surfaces
Efficient Water Collection on Integrative Bioinspired Surfaces with Star-Shaped Wettability Patterns
Bioinspired Micro-/Nanostructure Fibers with Water collecting Property
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