Three-dimensional(3D)graphene networks are performance boosters for functional nanostructures in energy-related fields.Although tremendous intriguing nanostructures-decorated 3D graphene networks have been realized,on...Three-dimensional(3D)graphene networks are performance boosters for functional nanostructures in energy-related fields.Although tremendous intriguing nanostructures-decorated 3D graphene networks have been realized,on-demand decoration of nanostructures in the specified position of interest within the whole 3D graphene skeleton is still out of reach,shedding limitations on constructing more sophisticated components with programmable structures which offer enormous potential for the enhancement of performance and exploration of new functions.Here,we report the melamine-sponge(MS)-templated hydrothermal method capable of realizing reduced graphene oxide(RGO)-nanostructure composite aerogels with programmable structures and compositions.The key of this method is using the MS template to preset the structures of choice through programmable solution-processed immobilization of graphene oxide(GO)and nanostructures.Remarkably,the hydrothermal treatment simultaneously removed the MS template and reduced the GO networks without changing the preset structures.We showcased nine typical RGO-nanostructures composite aerogels to demonstrate the versatility of the MS-templated hydrothermal method.展开更多
基金S.-H.Y.acknowledges the funding support from the National Natural Science Foundation of China(grant nos.21431006 and 21761132008)the Foundation for Innovative Research Groups of the National Natural Science Foundation of China(grant no.21521001)+2 种基金Key Research Program of Frontier Sciences,CAS(grant no.QYZDJ-SSW-SLH036)the Users with Excellence and Scientific Research Grant of Hefei Science Center of CAS(grant no.2015HSC-UE007)O.G.S.is appreciative of the financial support from the Leibniz Program of the German Research Foundation.
文摘Three-dimensional(3D)graphene networks are performance boosters for functional nanostructures in energy-related fields.Although tremendous intriguing nanostructures-decorated 3D graphene networks have been realized,on-demand decoration of nanostructures in the specified position of interest within the whole 3D graphene skeleton is still out of reach,shedding limitations on constructing more sophisticated components with programmable structures which offer enormous potential for the enhancement of performance and exploration of new functions.Here,we report the melamine-sponge(MS)-templated hydrothermal method capable of realizing reduced graphene oxide(RGO)-nanostructure composite aerogels with programmable structures and compositions.The key of this method is using the MS template to preset the structures of choice through programmable solution-processed immobilization of graphene oxide(GO)and nanostructures.Remarkably,the hydrothermal treatment simultaneously removed the MS template and reduced the GO networks without changing the preset structures.We showcased nine typical RGO-nanostructures composite aerogels to demonstrate the versatility of the MS-templated hydrothermal method.