Publications

Data publikacji: 2025-05-12

A sustainable cellulose bioplastic film with extraordinary mechanical performance regenerated by vapor-induced phase separation

H. Zhao, G. Hu, B. Abraham, Q. Wang, N. Zhong, F. Shen, L. Xu, Q. Yang, Piotr Batys, Q. Tu, Wojciech Plazinski, X. Cheng, Z. Cai, J. Hu

The Innovation Materials 3 (2025-05-12) 100133
https://doi.org/10.59717/j.xinn-mater.2025.100133
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Abstrakt

We urgently need eco-friendly alternatives to non-biodegradable petrochemical plastics. Our study introduces a streamlined Vapor-Induced Phase Separation (VIPS) process, followed by stretching and hot-pressing (VIPS-S-P), to produce a regenerated cellulose bioplastic (VSP-RCB). This bioplastic showcases exceptional mechanical strength in wet and dry conditions, water stability, transparency, biocompatibility, biodegradability, and thermal stability. The scalable VIPS process involves cellulose dissolved in DMAc-LiCl coagulating with atmospheric water vapor to form a transparent organohydrogel (RCOH). The RCOH is aligned through stretching and densified via hot-pressing, creating a fully recyclable product from diverse cellulose sources. Molecular dynamics simulations and life-cycle assessment (LCA) explain RCOH generation mechanisms and environmental impacts. The VIPS-S-P strategy provides a sustainable approach to producing robust, transparent, water-stable, and biodegradable cellulose-based bioplastics, offering a compelling alternative to petrochemical plastics.

Lista publikacji

Lista publikacji

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L. Woszczak, K. Khachatryan, M. Krystyjan, A. Lenart-Boron, M. Krzan, A. Bialecka, G. Khachatryan, Chitosan composites with beeswax and olive oil nano-microcapsules physicochemical characterization and antibacterial activity against skin microbiota, Scientific Reports 15 (2025-10-14) 35927.
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