Affiliation:
1. Department of Materials Science and Bioengineering, School of Engineering, Nagaoka University of Technology, Nagaoka 940-2188, Niigata, Japan
Abstract
This review discusses the recent advancements in cost-effective fermentation methods for producing bacterial nanocellulose (BC) from food and agro-industrial waste. Achieving economical cell culture media is crucial for large-scale BC production, requiring nutrient-rich media at low cost to maximize cellulose yield. Various pretreatment methods, including chemical, physical, and biological approaches, are stated to break down waste into accessible molecules for cellulose-producing bacteria. Additionally, strategies such as dynamic bioreactors and genetic engineering methods are investigated to enhance BC production. This review also focuses on the environmental impact assessment and updated application challenges of BC such as medical applications, energy storage/electronics, filtration membranes, and food packaging. By providing insights from the recent literature findings, this review highlights the innovative potential and challenges in economically and efficiently producing BC from waste streams.
Reference224 articles.
1. Technologies and perspectives for achieving carbon neutrality;Wang;Innovation,2021
2. The role of plastic concerning the sustainable development goals: The literature point of view;Clean. Responsible Consum.,2021
3. Morrow, R., Ribul, M., Eastmond, H., Lanot, A., and Baurley, S. (2023). Bio-Producing Bacterial Cellulose Filaments through Co-Designing with Biological Characteristics. Materials, 16.
4. Biobased materials for active food packaging: A review;Atta;Food Hydrocoll.,2022
5. Fabrication of flexible, ultra-strong, and highly conductive bacterial cellulose-based paper by engineering dispersion of graphene nanosheets;Luo;Compos. Part B Eng.,2019