生物塑料
细菌纤维素
持续性
生化工程
纤维素
纳米纤维素
生物高聚物
纳米技术
生物相容性材料
生物技术
可持续发展
工程类
全球挑战
环境科学
仿生学
材料科学
人类健康
基因工程
作者
Yihai Yan,Lijuan Liu,Fan Wang,Haibo Zhang
标识
DOI:10.1038/s41467-026-71025-7
摘要
Fossil-based plastics pose significant threats to global ecosystems, driving the need for sustainable bioplastic alternatives. Bacterial cellulose (BC), a biodegradable biopolymer with ultrafine nanoscale network, high water retention, robust mechanical properties and biocompatibility, presents a promising sustainable solution. This review traces the evolution from non-degradable to emerging biodegradable plastics, emphasizing BC's modification-structure-property relationships, environmental impact, techno-economic analysis and contributions in promoting a circular economy. Furthermore, this review highlights BC's potential as a bioplastic and discusses its current limitations and viable solutions. Development of BC-based bioplastics opens avenues for addressing the material-energy-environmental challenges faced by sustainable development.
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