In the present study, chitosan was chosen as an excellent material for wound dressing application due to its non-toxicity, biocompatibility and its ability to stimulate the immune system, promote cellular growth, and control bacterial proliferation. Chitosan-based nanocomposite fibrous mats were successfully produced by using electrospinning technique. Chitosan–poly(ethylene oxide) blend at 1:1 mass ratio was used as matrix, and cellulose or chitin nanocrystals at 50 wt% content were used as reinforcing phase. Aqueous solution of 50 wt% acetic acid was chosen as electrospinning solvent, and the final solute concentration of the electrospinning solutions was 3 wt%. Preliminary experiments were performed in order to determine the optimum proc...
Wound dressing is a supporting component of wound healing that threat like a dress to protect wound ...
The objective of this work was to develop nanochitin- and nanocellulose-based crosslinked porous nan...
Chitosan (CS) membranes obtained by electrospinning are potentially ideal substrates for soft tissue...
In the present study, chitosan was chosen as an excellent material for wound dressing application du...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Electrospinning, which is a fiber fabrication technique using electrical forces to produce fibers wi...
Electrospun nanofibers have been considered as relatively ideal material system for the design and c...
Chitosan (CS) membranes obtained by electrospinning are potentially ideal substrates for soft tissue...
Wound dressing is a supporting component of wound healing that threat like a dress to protect wound ...
The objective of this work was to develop nanochitin- and nanocellulose-based crosslinked porous nan...
Chitosan (CS) membranes obtained by electrospinning are potentially ideal substrates for soft tissue...
In the present study, chitosan was chosen as an excellent material for wound dressing application du...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Chitosan is a non-toxic, antibacterial, biodegradable and biocompatible biopolymer used extensively ...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Recently, the use of bio-based nanomaterials has attracted much interest in medical applications due...
Electrospinning, which is a fiber fabrication technique using electrical forces to produce fibers wi...
Electrospun nanofibers have been considered as relatively ideal material system for the design and c...
Chitosan (CS) membranes obtained by electrospinning are potentially ideal substrates for soft tissue...
Wound dressing is a supporting component of wound healing that threat like a dress to protect wound ...
The objective of this work was to develop nanochitin- and nanocellulose-based crosslinked porous nan...
Chitosan (CS) membranes obtained by electrospinning are potentially ideal substrates for soft tissue...