Fabrication and characterization of electrospun cellulose acetate nanofibers derived from rice husk for potential wound healing application

As one of the world’s most abundant biomass, lignocellulosic materials such as rice husk (RH) has been recognized for its various potential usages. Electrospun nanofibrous mats have fabricated from natural and synthetic polymers offers a wide range promising criteria suitable wound dressing applications. Attuned to environmental concerns in current years led finding new resources replace polymers. Natural grabbed considerable attention due their desirable properties. Therefore, application cellulose-derived agricultural waste becomes crucial green alternative produce electrospun with excellent wettability, porosity tunability promote healing at relatively low costs. Interestingly, specific study on utilization cellulose extracted RH mat remains unreported. this work aimed investigate feasibility using source raw create use prospective materials. researchers currently focus sustainability, focuses physicochemical derived nanofibers biocompatibility drug carrier that are biomass waste. In paper, was converted into derivate, acetate electrospun. The were then characterized by scanning electron microscope, attenuated total reflectance- fourier transform spectroscopy, water contact angle evaluate main properties, compatibility nano-fibrous