Bacterial Cellulose: An Ecological Alternative as A Biotextile

Rekha Mehrotra, Samik Sharma, Nidhi Shree, K. Kaur
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Abstract

Bacterial cellulose has come forth as a novel nano-material with an extensive range of distinct properties, making it an excellent industrial alternative to conventional plant cellulose, as the world moves toward a sustainable and cleaner phase. Bacterial cellulose is a biomaterial that breaks down naturally in the environment and is produced by natural mechanism in bacterial cells. It has been considered as a substitute to traditional biomaterials in numerous sectors, namely, textile, pharmaceutical, food industry, biotechnology, for its features enabling to achieve sustainable development goals. The present focus is on looking at developing an inexpensive substrate for the synthesis of bacterial cellulose from industrial waste as its commercialization is restricted due to social, economic, and environmental considerations. Upcoming research in biotechnological area of biotextiles and biocomposites aims to integrate basic knowledge of textiles with biological sciences thereby facilitating production of goods which are commercially more viable and also less harmful to the environment. The review discusses the data regarding the use of bacterial cellulose and its production over the years, notably in the textile sector, with an emphasis on advancement of research to enable its extensive production and in various other areas like cosmetology, food industry, biomedical and paper industry. In addition, potential benefits of bacterial cellulose development addressing many of the global sustainable development goals along with suggestions for its scale-up have also been discussed.
细菌纤维素:作为生物纺织品的生态替代品
随着世界走向可持续和清洁的阶段,细菌纤维素作为一种具有广泛独特性能的新型纳米材料出现,使其成为传统植物纤维素的优秀工业替代品。细菌纤维素是一种在环境中自然分解的生物材料,在细菌细胞中通过自然机制产生。它已被视为传统生物材料在许多部门的替代品,即纺织、制药、食品工业、生物技术,因为它具有能够实现可持续发展目标的特点。目前的重点是寻找一种廉价的底物,用于从工业废料中合成细菌纤维素,因为其商业化受到社会、经济和环境因素的限制。在生物纺织品和生物复合材料的生物技术领域即将进行的研究旨在将纺织品的基本知识与生物科学结合起来,从而促进生产商业上更可行且对环境危害更小的产品。这篇综述讨论了多年来关于细菌纤维素的使用及其生产的数据,特别是在纺织部门,重点是推进研究,使其能够广泛生产,并在美容、食品工业、生物医学和造纸工业等其他各个领域。此外,还讨论了细菌纤维素开发的潜在好处,以解决许多全球可持续发展目标以及扩大其规模的建议。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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