Abstract:
Polymers are widely used in domestic and industrial applications because of their
diverse functionality, lightweight, low cost and excellent chemical stability. They are
mainly classified into naturally occurring or bio-based polymers and synthetic
polymers. Bio-based polymers have the potential to replace petroleum-based.synthetic
polymers and solve some of the most urgent problems caused by the overuse of
petroleum-based polymers, such as environmental pollution especially water and soil
pollution and harmful influence to human health.
Rice is the major agricultural food and it is cultivated in all parts of Sri Lanka today.
Rice straw is the waste product of the rice harvest. Rice straws have a considerable
amount of cellulose. Cellulose is the mostly used bio-polymer material for various
applications today. Nanocellulose is a light solid substance obtained from agricultural
waste which comprises of Nano-sized cellulose fibrils. In this research, rice straw of
BG 352 variety was collected from Polgahawela paddy cultivation area in Sri Lanka.
Cellulose and nanocellulose materials were extracted from rice straw of BG 352 rice
variety. Cellulose was extracted from rice straw using de-waxing, delignification,
hemicellulose and silica removal treatments. Extracted cellulose was characterized by
Fourier Transform Infrared spectroscopic techniques (FTIR). SEM images indicated
that isolated cellulose fibers showed diameters ranging from 2-8|^m. Approximately
21wt. % of cellulose was extracted from the rice straw. Nanocellulose was extracted
from cellulose by subjecting to acid hydrolysis, quenching, centrifugation, dialysis,
sonication and freeze-drying processes. SEM images showed that extracted
nanocellulose materials having 5-70 nm diameters. Therefore, Sri Lankan agricultural
waste can be used as a source to synthesis value-added product of nanocellulose
Citation:
Wickramasinghe, W.A.W.I.C., Lasitha, D.S., Samarasekara, A.M.P.B., & Amarasinghe, D.A.S. (2019). Extraction of nanocellulose from Sri Lankan agricultural waste
[Abstract]. In V. Sivahar & H.S. Sitinamaluwa (Eds.), Dreams to reality through innovative materials (p. 6). Department of Materials Science and Engineering, University of Moratuwa.