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electrospimnig machine has created a trend that has attracted widespread attention. Thanks to the enhancement of nanofibre membrane, the technology has made rapid progress. Nanofibres produced continuously by electrostatic spinning technology have a larger specific surface area and higher porosity, playing an irreplaceable and critical role in many fields. Combined with the biodegradability and compatibility of polysaccharide's natural structural properties, electrospun polysaccharide nanofibre membranes are gradually penetrating into the field of life, helping to improve the quality of life by filtering air pollution particles and water pollutants, treating wounds, keeping food fresh and monitoring electronic devices.
1.This paper reviews the existing electrospimnig machine and focuses on the recent research progress in different areas of polysaccharide nanofibres such as starch, chitosan and cellulose.
2.Finally, the advantages and disadvantages of electrospimning equipment are briefly discussed, and the prospects for the application of polysaccharide nanofibre membranes are presented.
1. The ability to produce Nanofiber Membranes with greater specific surface area and higher porosity than other techniques.
2. the ability to simultaneously prepare and modulate nanofibre membranes using a diverse range of techniques.
3. the potential for a wide range of applications in a number of fields due to the controllable and multifunctional nature of the Nanofibre Membranes produced.
4. sustainability through the use of renewable and biodegradable polysaccharides such as starch, chitosan and cellulose.
5. enhancement of nanofibres through unique properties of natural polysaccharides such as non-toxicity and biocompatibility
Schematic representation of electrospun polysaccharide nanofibres in different applications
1. Provide excellent biocompatibility, stability and biodegradability.
2. Provide cost-effective solutions due to the unique molecular structure of polysaccharides.
3. Create multifunctional materials with attractive features such as abundance, environmental friendliness and low cost.
4. Widely used in biomedical engineering, food engineering, and environmental engineering.
5. as promising nanomedical biomaterials with non-toxicity, stability, water-solubility and multiple biological activities.
6. to create composite films with satisfactory physical properties and antimicrobial effects for specific applications.
7. used in sensing applications to promote the development of high-performance flexible sensors and functional materials.
8. Promoting the utilisation of abundant natural polysaccharides in various fields through electrospimnig machine.
electrospmning device analysis and electric field strength distribution of different types of spinnerets in electrospinning system
Typical Electrostatic Spinning istrument
Original link: https://doi.org/10.1016/j.ijbiomac.2024.130335
