The hybrid Janus nanomaterials have captured considerable attention since the asymmetric structure can combine the properties of each component and display synergistic applications.However,the precise design of the sp...The hybrid Janus nanomaterials have captured considerable attention since the asymmetric structure can combine the properties of each component and display synergistic applications.However,the precise design of the specific hybrid Janus nanostructures still remains a formidable challenge.Here,we for the first time report the fabrication of novel and highly uniform inorganic/organic hybrid Janus nanotubes via disassembling the mesoporous inorganic nanoparticles(NPs)/polystyrene-block-poly(4-vinylpyridine)(PS-b-P4VP)hybrid sheets,which are generated through the in situ reduction of functional metal precursors on the prepared PS-b-P4VP mesoporous scaffolds.More importantly,the internal pore size of the hybrid Janus nanotubes can be precisely tuned by readily controlling the swelling time of the PS-b-P4VP sheet-like assemblies in a selective solvent for P4VP domains,thus generating the particular inorganic/organic hybrid Janus nanotubes with adjustable inner diameter size.We believe that our finding will provide an efficient and universal route to fabricate the particular inorganic/organic hybrid nanotubes for hierarchical functional devices and nanomaterials.展开更多
基金financially supported by the National Natural Science Foundation of China for General Program(No.22072143)and Major Program(No.51433009)。
文摘The hybrid Janus nanomaterials have captured considerable attention since the asymmetric structure can combine the properties of each component and display synergistic applications.However,the precise design of the specific hybrid Janus nanostructures still remains a formidable challenge.Here,we for the first time report the fabrication of novel and highly uniform inorganic/organic hybrid Janus nanotubes via disassembling the mesoporous inorganic nanoparticles(NPs)/polystyrene-block-poly(4-vinylpyridine)(PS-b-P4VP)hybrid sheets,which are generated through the in situ reduction of functional metal precursors on the prepared PS-b-P4VP mesoporous scaffolds.More importantly,the internal pore size of the hybrid Janus nanotubes can be precisely tuned by readily controlling the swelling time of the PS-b-P4VP sheet-like assemblies in a selective solvent for P4VP domains,thus generating the particular inorganic/organic hybrid Janus nanotubes with adjustable inner diameter size.We believe that our finding will provide an efficient and universal route to fabricate the particular inorganic/organic hybrid nanotubes for hierarchical functional devices and nanomaterials.
