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Chiral Transfer and Evolution in Cysteine Induced Cobalt Superstructures

Zimo Wang, Xiuxiu Yin, Junjie Ba, Junpeng Li, Yingjin Wei, Yizhan Wang

2024Small17 citationsDOIOpen Access PDF

Abstract

Chiral organic additives have unveiled the extraordinary capacity to form chiral inorganic superstructures, however, complex hierarchical structures have hindered the understanding of chiral transfer and growth mechanisms. This study introduces a simple hydrothermal synthesis method for constructing chiral cobalt superstructures with cysteine, demonstrating specific recognition of chiral molecules and outstanding electrocatalytic activity. The mild preparation conditions allow in situ tracking of chirality evolution in the chiral cobalt superstructure, offering unprecedented insights into the chiral transfer and amplification mechanism. The resulting superstructures exhibit a universal formation process applicable to other metal oxides, extending the understanding of chiral superstructure evolution. This work contributes not only to the fundamental understanding of chirality in self-assembled structures but also provides a versatile method for designing chiral inorganic nanomaterials with remarkable molecular recognition and electrocatalytic capabilities.

Topics & Concepts

Chirality (physics)SuperstructureMaterials scienceCobaltNanomaterialsNanotechnologyMoleculeMetal-organic frameworkChemical physicsCombinatorial chemistryTopology (electrical circuits)ChemistryOrganic chemistryChiral symmetry breakingPhysicsSymmetry breakingCombinatoricsQuantum mechanicsMathematicsThermodynamicsNambu–Jona-Lasinio modelMetallurgyAdsorptionSurface Chemistry and CatalysisSupramolecular Self-Assembly in MaterialsElectrocatalysts for Energy Conversion
Chiral Transfer and Evolution in Cysteine Induced Cobalt Superstructures | Litcius