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Abstract
Stimuli-responsive materials constructed via the self-assembly of small biomolecules are attracting increasing attention because of their biocompatibility, sustainability, and variety of (bio)applications. Nevertheless, the research on oligosaccharide-based molecular designs for such stimuli-responsive materials (or stimuli-responsive glyco-materials) is limited, partly due to the intrinsic structural diversity of oligosaccharides and the difficulty associated with their selective chemical syntheses. Herein, we report the construction of photodegradable glyco-microfibers by the self-assembly of cellobiose derivatives bearing nitrobenzyl groups. The atomic-scale, self-assembled architecture of the photodegradable glyco-microfibers is unveiled and compared with those of pristine cellobiose and cellulose polymorphs in previous reports.
Supplementary materials
Title
Supplementary Information
Description
Figures S1–S20, synthesis and characterization of cellobiose(oNB2)-pNB, and characterization of self-assembled structures of cellobiose(oNB2)-pNB.
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Title
X-ray structure of cellobiose(oNB2)-pNB
Description
Crystallographic information file (.cif) of cellobiose(oNB2)-pNB
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