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Fast formation of strong symmetric poly (vinylidene fluoride) membranes via a modified VIPS method
Ping Hong Li, Konstantinos G. Beltsios,
Jenn Fang Su
*
, Liao Ping Cheng
*
此作品的通信作者
Tamkang University
National Technical University of Athens
研究成果
:
期刊稿件
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同行評審
3
引文 斯高帕斯(Scopus)
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深入研究「Fast formation of strong symmetric poly (vinylidene fluoride) membranes via a modified VIPS method」主題。共同形成了獨特的指紋。
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Chemistry
Procedure
100%
Vinylidene Fluoride
100%
Poly(vinylidene)
100%
Structure
66%
Micro Porosity
66%
Polymer
66%
Filtration
66%
Vapor
66%
Glycerol
66%
Aqueous Solution
33%
Surface
33%
Time
33%
Phase Separation
33%
Amount
33%
Wetting
33%
Particle Size
33%
Strength
33%
Precipitation (Chemical)
33%
Porosity
33%
Inversion
33%
Hydrophobicity
33%
Pore Size
33%
Crystallization
33%
Humidity
33%
Poly Methyl Methacrylate
33%
Distillation
33%
Water Vapor
33%
Triethyl Phosphate
33%
Engineering
Membrane
100%
Polymer
33%
Glycerol
33%
Precipitation
16%
Properties
16%
Experimental Result
16%
Surfaces
16%
Demonstrates
16%
Water
16%
Permeation
16%
Combines
16%
Average Size
16%
Microporous Membrane
16%
Small Amount
16%
Microfiltration
16%
Isothermal
16%
Casting
16%
Relative Humidity
16%
Phase Separation
16%
Exposure Time
16%
High Porosity
16%
Macrovoids
16%
Nonsolvents
16%
Membrane Distillation
16%
Phase-Inversion
16%
Pharmacology, Toxicology and Pharmaceutical Science
Polyvinylidene Fluoride
100%
Polymer
66%
Glycerol
66%
Water
33%
Phosphate
33%
Poly(methyl Methacrylate)
33%
Hydrophobicity
33%
Crystallization
33%
Biochemistry, Genetics and Molecular Biology
Membrane
100%
Filtration
25%
Glycerol
25%
Vapor
25%
Time
12%
Surface Property
12%
Solution and Solubility
12%
Phosphate
12%
Strength
12%
Immersion
12%
Crystallization
12%
Humidity
12%
Porosity
12%
Phase Separation
12%
Precipitation
12%
Contact Angle
12%
Distillation
12%
Pore Size
12%
Hydrophobicity
12%
Water Vapor
12%
Microfiltration
12%
Material Science
Membrane
100%
Polymer
25%
Vapor
25%
Surface
12%
Crystallization
12%
Mechanical Strength
12%
Particle
12%
Water Vapor
12%
Pore Size
12%
Contact Angle
12%
Void Fraction
12%