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Coelectrospinning of chitosan/alginate fibers by dual-jet system for modulating material surfaces
Wei Wen Hu
, Hsing Ning Yu
化學工程與材料工程學系
研究成果
:
雜誌貢獻
›
期刊論文
›
同行評審
55
引文 斯高帕斯(Scopus)
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指紋
指紋
深入研究「Coelectrospinning of chitosan/alginate fibers by dual-jet system for modulating material surfaces」主題。共同形成了獨特的指紋。
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Keyphrases
Surface Material
100%
Alginate Fiber
100%
Nanofibers
100%
Dual Jet
100%
Jet System
100%
Co-electrospinning
100%
Chitosan-alginate
100%
Surface Properties
66%
Composition Ratio
66%
Extracellular Environment
33%
Cell Morphology
33%
High Biocompatibility
33%
Hydrophobicity
33%
Tissue Engineering
33%
In Vitro Cell Culture
33%
Tissue Engineering Applications
33%
Alginate
33%
Biomaterials
33%
Deposition Rate
33%
Poly(ethylene oxide)
33%
Chemical Properties
33%
Polymer Solution
33%
Calcium Ion
33%
Composite Nanofibers
33%
Crosslinking Methods
33%
Electrospun Fibers
33%
Chitosan
33%
Electrospinning Technique
33%
Surface Cell
33%
Alginate Nanofibers
33%
Tunable System
33%
Nanofiber Fabrication
33%
Culture Results
33%
Perfusion Rate
33%
Fiber Degradation
33%
Chitosan Nanofiber
33%
Viscosity of Polymer Solution
33%
Fibrous Mat
33%
Fiber Composition
33%
Engineering
Nanofiber
100%
Alginate Fiber
100%
Material Surface
100%
Tissue Regeneration
40%
Alginate
40%
Engineering Application
20%
Cell Morphology
20%
Fluid Viscosity
20%
Deposition Rate
20%
Electrospun Fiber
20%
Electrospinning Technique
20%
Perfusion Rate
20%
Composite Nanofibers
20%
Surface System
20%
Fibre Degradation
20%
Extracellular Environment
20%
Material Science
Nanofiber
100%
Surface (Surface Science)
100%
Surface Property
33%
Polymer Solution
33%
Biocompatibility
16%
Hydrophobicity
16%
Polyethylene Glycol
16%
Biomaterial
16%
Chemical Property
16%
Calcium Ion
16%
Electrospinning
16%
Composite Material
16%
Chemical Engineering
Alginate
100%
Chitosan
100%
Deposition Rate
25%
Polyethylene Glycol
25%