Facile exfoliation and physicochemical characterization of biomass-based cellulose derived from Pandanus tectorius leaves for sustainable environment

Cellulose present in natural plant sources has better potentials to replace traditional synthetic fibers. However, a lack of knowledge and awareness on cellulose hinders efforts to fully utilize this extremely biodegradable resource. This study aims to extract and characterize the microcrystalline cellulose (MC) obtained from Pandanus tectorius leaves. The MC particles are extracted with the aid of alkaline and chemical treatment. The extracted MC powder is in pure white color and further investigated with Fourier transform infrared spectroscopy (FTIR), X-ray diffraction analysis (XRD), ultraviolet-visible spectroscopy (UV), thermogravimetric analysis (TGA), and scanning electron microscopy analysis (SEM) to understand its physicochemical properties and surface morphology. The band gap energy of exfoliated MC was 4.21 eV; with crystallinity index and degree of crystallinity of 76.8% and 81.4%, the dislocation density is calculated as 0.002. Thermal stability of MC particle was up to 470 degrees C; further increment in temperature degrades the MC particles. The obtained results depict that exfoliated MC particles have better band gap, and it can be used for food packing industries, and furthermore, this type of waste plant weeds can be converted in to useful MC particles to be used as a filler material in developing polymer matrix composite.