Research on Progress and Possibility of Electrospining of Native Cellulose and Preparation of Copper-Based Antimicrobial Fiber

Yan Juan Cao; Bin Jie Xin; Xiang Ji Wu; Wei Ping Du

doi:10.4028/www.scientific.net/AMR.850-851.53

Paper Titles

The Interaction of Mixing Odorants with Similar Chemical Properties: A Case Study on Ketone Compounds
p.32

Exposure Assessment of Nano-CaCO₃ Manufacturing Workplaces
p.38

Crystal Structure and Fluorescence of 4,4'-(o-Benzonitrile) Divinylbenzene
p.45

Crystal Structure and Fluorescence Characterization of Large π-Conjugated Biphenyl Derivative
p.49

Research on Progress and Possibility of Electrospining of Native Cellulose and Preparation of Copper-Based Antimicrobial Fiber
p.53

Determination of Ferulic Acid in “AI-FU-NUAN-GONG” Pills by High Performance Capillary Electrophoresis
p.57

Effects of Y Alloying on Thermal Stability and Corrosion Resistance of Cu-Zr-Al Metallic Glass
p.62

Microwave-Assisted Synthesis of Anilinocarbonyl Acetylene: A Quick Access to Terminal Alkynes
p.66

Study on the Molecular Structure and the Performance of PE100 Resin for Tubing
p.70

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Research on Progress and Possibility of Electrospining of Native Cellulose and Preparation of Copper-Based Antimicrobial Fiber

Abstract:

Electrostatic spinning is now recognized as a versatile and easily feasible method for the preparation of micro and nanofibrous materials. Because of their high specific surface area and highly porous structure electrospun materials can find application as wound dressings that provide good draining and good air permeability [. By adding various types of material or chemical modification in electrospun materials, we can prepare a polymer with excellent antibacterial properties of nanomaterials. Copper, an inorganic antibacterial agent, is also called the second silver. The antibacterial research of copper series attracted great concern in recent years. First, the paper introduced the progress and mechanism of electrostatic spinning of native cellulose and Cu (II) ion antimicrobial fibres, and then did a brief presentation of copper ion antibacterial fibers on the bases of electrostatic spinning of native cellulose.