Hierarchical chiral self-assembly is of profound significance for biomolecules for their biological functions.Atom-precise metal nanoclusters(NCs)offer better opportunities to construct hierarchical superlattices.Neve...Hierarchical chiral self-assembly is of profound significance for biomolecules for their biological functions.Atom-precise metal nanoclusters(NCs)offer better opportunities to construct hierarchical superlattices.Nevertheless,achieving hierarchical homochiral assembly of nanocrystals protected by achiral ligands has proven to be a formidable task,with existing examples primarily limited to heterochiral assembly.Here we put forward a hierarchical assembly strategy towards precisely fabricating highly ordered homochiral superstructures.First,clusterin-nanocage type copper-hydride NCs act as synthons,of which entity is featured with a hexagonal close-packed Cu_(9)kernel embedded in a C_(3)-symmetric trigonal-prismatic metallacage,leading to a chiral core-shell primary structure with either P or M conformation.Then four homochiral NCs combined with vips through synergistic noncovalent interactions spontaneously organize into a supramolecular tetrahedral secondary structure within a unit cell.Finally,these nanoscopic supramolecular motifs pack into tertiary hierarchical superlattice of chiral cubic crystalline phase.Additionally,the crystalline material shows excellent robustness,and fascinating blueexcitable near-infrared thermally activated delayed fluorescence behavior.This work not only exhibits that nanocage-type NCs can be smart as proteins to translate chiral primary structure into tertiary chiral hierarchical complexity,but also provides new insights into structure-to-superstructure,enabling bottom-up creation of higher-level hierarchical homochiral superlattice structures.展开更多
基金supported by the National Natural Science Foundation of China(grant nos.22325105,92361301,52261135637,22171164,92161118,91961105,and 21641011)the Natural Science Foundation of Fujian Province(grant no.2022J01298)the Open Project Program of the State Key Laboratory of Photocatalysis on Energy and Environment(grant no.SKLPEE-KF202109).
文摘Hierarchical chiral self-assembly is of profound significance for biomolecules for their biological functions.Atom-precise metal nanoclusters(NCs)offer better opportunities to construct hierarchical superlattices.Nevertheless,achieving hierarchical homochiral assembly of nanocrystals protected by achiral ligands has proven to be a formidable task,with existing examples primarily limited to heterochiral assembly.Here we put forward a hierarchical assembly strategy towards precisely fabricating highly ordered homochiral superstructures.First,clusterin-nanocage type copper-hydride NCs act as synthons,of which entity is featured with a hexagonal close-packed Cu_(9)kernel embedded in a C_(3)-symmetric trigonal-prismatic metallacage,leading to a chiral core-shell primary structure with either P or M conformation.Then four homochiral NCs combined with vips through synergistic noncovalent interactions spontaneously organize into a supramolecular tetrahedral secondary structure within a unit cell.Finally,these nanoscopic supramolecular motifs pack into tertiary hierarchical superlattice of chiral cubic crystalline phase.Additionally,the crystalline material shows excellent robustness,and fascinating blueexcitable near-infrared thermally activated delayed fluorescence behavior.This work not only exhibits that nanocage-type NCs can be smart as proteins to translate chiral primary structure into tertiary chiral hierarchical complexity,but also provides new insights into structure-to-superstructure,enabling bottom-up creation of higher-level hierarchical homochiral superlattice structures.
