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Self‐Propelled, High‐Crystalline Hydrogen‐Bonded Enzymatic Framework Assembled by Bottom‐Up Strategy

Huangsheng Yang, Jiahui Fu, Wei Huang, Tong Wu, Siming Huang, Guosheng Chen, Gangfeng Ouyang

2023Small Structures26 citationsDOIOpen Access PDF

Abstract

Biomimetic engineering presents an insightful strategy to access fascinating biocomposites integrating biological, chemical, and material functions. Herein, a new self‐propelled hydrogen‐bonded enzymatic framework through a biomimetic bottom‐up strategy is reported. The metal‐free, mesoporous, and photoactive hydrogen‐bonded organic framework (HOF) exoskeleton is in situ grown around catalase (CAT), an enzyme well known for its ability for the biocatalytic O 2 generation. This HOF biomimetic method affords the ultrahigh encapsulation efficiency of CAT, yet well preserves the high crystallinity and periodically arranged mesochannels of HOF. The resultant hydrogen‐bonded enzymatic framework enables the self‐propelled motion with the help of a biocatalytic O 2 bubble. Given the exquisite architecture, the HOF shell can serve as the dynamical sorbent for pollutant removal. More than that, it is showcased that the intrinsic photoactivity of HOF can be improved by the self‐propelled motion.

Topics & Concepts

NanotechnologyMaterials scienceMesoporous materialCrystallinityNanostructureHydrogenChemistryCatalysisOrganic chemistryComposite materialNanoplatforms for cancer theranosticsMetal-Organic Frameworks: Synthesis and ApplicationsSupramolecular Self-Assembly in Materials
Self‐Propelled, High‐Crystalline Hydrogen‐Bonded Enzymatic Framework Assembled by Bottom‐Up Strategy | Litcius