Title of article
Cellulose-based hydrogel materials: chemistry, properties and their prospective applications
Author/Authors
Kabir, S M Fijul Department of Textiles - Apparel Design and Merchandising - Louisiana State University, Baton Rouge, USA , Sikdar, Partha P. Department of Textiles - Merchandising and Interiors - University of Georgia, Athens, USA , Haque, B. College of Textile Engineering - University of Chittagong, Banglades , Bhuiyan, M. A. Rahman Department of Textile Engineering - Dhaka University of Engineering and Technology, DUET, Bangladesh , Ali, A. Department of Textile Engineering - Dhaka University of Engineering and Technology, DUET, Bangladesh , Islam, M. N. Department of Chemistry - Dhaka University of Engineering and Technology, DUET, Bangladesh
Pages
22
From page
153
To page
174
Abstract
Hydrogels based on cellulose comprising many organic biopolymers including cellulose, chitin, and chitosan are the hydrophilic
material, which can absorb and retain a huge proportion of water in the interstitial sites of their structures. These
polymers feature many amazing properties such as responsiveness to pH, time, temperature, chemical species and biological
conditions besides a very high-water absorption capacity. Biopolymer hydrogels can be manipulated and crafted for numerous
applications leading to a tremendous boom in research during recent times in scientific communities. With the growing
environmental concerns and an emergent demand, researchers throughout the globe are concentrating particularly on naturally
derived hydrogels due to their biocompatibility, biodegradability and abundance. Cellulose-based hydrogels are considered
as useful biocompatible materials to be used in medical devices to treat, augment or replace any tissue, organ, or help function
of the body. These hydrogels also hold a great promise for applications in agricultural activity, as smart materials and
some other useful industrial purposes. This review offers an overview of the recent and contemporary research regarding
physiochemical properties of cellulose-based hydrogels along with their applications in multidisciplinary areas including
biomedical fields such as drug delivery, tissue engineering and wound healing, healthcare and hygienic products as well as
in agriculture, textiles and industrial applications as smart materials.
Keywords
Hydrogels , Cellulose , Chitin , Chitosan , Smart material , Biomedical applications
Journal title
Progress in Biomaterials
Serial Year
2018
Journal title
Progress in Biomaterials
Record number
2434741
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