Morphological Transformation and Surface Engineering of Glycovesicles Driven by Bioinspired Hydrogen Bonds of Nucleobases
Caiyun Yang,
Yixuan Du,
Qiaoran Li
et al.
Abstract:Glycopolymer-based supramolecular glycoassemblies with signal-driven cascade morphological deformation and accessible surface engineering toward bioinspired functional glycomaterials have attracted much attention due to their diverse applications in fundamental and practical scenarios. Herein, we achieved the cascade morphological transformation and surface engineering of a nucleobase-containing polymeric glycovesicle through exploiting the bioinspired complementary multiple hydrogen bonds of complementary nuc… Show more
Inspired by the selective multiple hydrogen bonds of complementary nucleobases in nucleic acids, robust nucleobase-containing polymers/materials have been developed through high-efficient and scalable step-growth or chain polymerizations.
Inspired by the selective multiple hydrogen bonds of complementary nucleobases in nucleic acids, robust nucleobase-containing polymers/materials have been developed through high-efficient and scalable step-growth or chain polymerizations.
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