Design of Chemically Recyclable Nanocellulose Chiral Liquid Crystal Photonic Elastomer Vitrimer and its Mechanosensitive Colour-changing Materials
Document Type
Editorial
Publication Date
1-1-2023
Abstract
The development of nanocellulose (CNCs) chiral liquid crystal photonic elastomeric vitrimer materials is promising for achieving needed reduction in carbon emissions (elastomer material recycling) and developing novel photonic functional materials. The primary questions discussed are about what is the basic principle of chiral liquid crystal and photonic property of CNCs, how to design vitrimer elastomer materials, and what is the general approach to designing CNC chiral liquid crystal photonic elastomer vitrimer and mechanosensitive colour-changing materials.
Publication Source (Journal or Book title)
BioResources
First Page
6727
Last Page
6730
Recommended Citation
Zhang, J., Li, W., & Wu, Q. (2023). Design of Chemically Recyclable Nanocellulose Chiral Liquid Crystal Photonic Elastomer Vitrimer and its Mechanosensitive Colour-changing Materials. BioResources, 18 (4), 6727-6730. https://doi.org/10.15376/biores.18.4.6727-6730