Electrospinning techniques enable the production of continuous fibers with dimensions on the scale of nanometers from a wide range of natural and synthetic polymers. The number of recent studies regarding electrospun polysaccharides and their derivatives, which are potentially useful for regenerative medicine, is increasing dramatically. However, difficulties regarding the processibility of the polysaccharides (e.g., poor solubility and high surface tension) have limited their application. In this review, we summarize the characteristics of various polysaccharides such as alginate, cellulose, chitin, chitosan, hyaluronic acid, starch, dextran, and heparin, which are either currently being used or have potential to be used for electrospinnin...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
In the present study, chitosan was chosen as an excellent material for wound dressing application du...
Electrospinning from solutions of polymers which is a promising way of nanofibres manufacture in the...
Recent developments in electrospinning technology have enabled the commercial-scale production of no...
Electrospinning, which is a fiber fabrication technique using electrical forces to produce fibers wi...
Electrospinning has been used for decades to generate nano-fibres via an electrically charged jet of...
A short review with 49 references describes the electrospinninng (ES) process for polysaccharides, c...
Electrospinning is a fabrication technique, which can be used to create nanofibrous non‐wovens from ...
Polymer hydrogels resemble the natural living tissue due to their high water content and soft consis...
Innovative solutions using biopolymer-based materials made of several constituents seems to be parti...
Electrospun fibers based on biodegradable polyanionic or polycationic biopolymers are highly benefic...
Wound dressings are critical for wound care because they provide a physical barrier between the inju...
International audienceHydrogels are a suitable scaffold material for a variety of tissue engineering...
The skin prevents infection and contamination entering the body, and wound dressings are one of the ...
Biopolymers, especially polysaccharides and proteins, are the promising green replacement for petrol...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
In the present study, chitosan was chosen as an excellent material for wound dressing application du...
Electrospinning from solutions of polymers which is a promising way of nanofibres manufacture in the...
Recent developments in electrospinning technology have enabled the commercial-scale production of no...
Electrospinning, which is a fiber fabrication technique using electrical forces to produce fibers wi...
Electrospinning has been used for decades to generate nano-fibres via an electrically charged jet of...
A short review with 49 references describes the electrospinninng (ES) process for polysaccharides, c...
Electrospinning is a fabrication technique, which can be used to create nanofibrous non‐wovens from ...
Polymer hydrogels resemble the natural living tissue due to their high water content and soft consis...
Innovative solutions using biopolymer-based materials made of several constituents seems to be parti...
Electrospun fibers based on biodegradable polyanionic or polycationic biopolymers are highly benefic...
Wound dressings are critical for wound care because they provide a physical barrier between the inju...
International audienceHydrogels are a suitable scaffold material for a variety of tissue engineering...
The skin prevents infection and contamination entering the body, and wound dressings are one of the ...
Biopolymers, especially polysaccharides and proteins, are the promising green replacement for petrol...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
In the present study, chitosan was chosen as an excellent material for wound dressing application du...
Electrospinning from solutions of polymers which is a promising way of nanofibres manufacture in the...