Use of industrial wastes as sustainable nutrient sources for bacterial cellulose (BC) production: Mechanism, advances, and future perspectives

A novel nanomaterial, bacterial cellulose (BC), has become noteworthy recently due to its better physicochemical properties and biodegradability, which are desirable for various applications. Since cost is a significant limitation in the production of cellulose, current efforts are focused on the us...

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Bibliographic Details
Published in:Polymers
Main Author: Kadier A.; Ilyas R.A.; Huzaifah M.R.M.; Harihastuti N.; Sapuan S.M.; Harussani M.M.; Azlin M.N.M.; Yuliasni R.; Ibrahim R.; Atikah M.S.N.; Wang J.; Chandrasekhar K.; Amirulislam M.; Sharma S.; Punia S.; Rajasekar A.; Asyraf M.R.M.; Ishak M.R.
Format: Review
Language:English
Published: MDPI 2021
Online Access:https://www.scopus.com/inward/record.uri?eid=2-s2.0-85117369855&doi=10.3390%2fpolym13193365&partnerID=40&md5=593cf7d6e63d1ceb7f61aedcf5c3b5ea
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Summary:A novel nanomaterial, bacterial cellulose (BC), has become noteworthy recently due to its better physicochemical properties and biodegradability, which are desirable for various applications. Since cost is a significant limitation in the production of cellulose, current efforts are focused on the use of industrial waste as a cost-effective substrate for the synthesis of BC or microbial cellulose. The utilization of industrial wastes and byproduct streams as fermentation media could improve the cost-competitiveness of BC production. This paper examines the feasibility of using typical wastes generated by industry sectors as sources of nutrients (carbon and nitrogen) for the commercial- scale production of BC. Numerous preliminary findings in the literature data have revealed the potential to yield a high concentration of BC from various industrial wastes. These findings indicated the need to optimize culture conditions, aiming for improved large-scale production of BC from waste streams. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.
ISSN:20734360
DOI:10.3390/polym13193365