Advanced hybrid nanomaterials(nanohybrids)with unique tailored morphologies and compositions have been used for the target-oriented catalysts due to the structural or supportive properties of each moiety and the syner...Advanced hybrid nanomaterials(nanohybrids)with unique tailored morphologies and compositions have been used for the target-oriented catalysts due to the structural or supportive properties of each moiety and the synergistic properties of the individual components.The rational design and development of nanohybrids by integrating highly porous silica into a nano metal-organic framework(NMOF)are expected to enable unique nanospace engineering in the resulting systems to optimize their utility in the target areas.Herein,we report the design and fabrication of advanced nanohybrids composed of dendritic fibrous nanosilica(DFNS)and DFNS/gold(DFNS/Au)hybrids as the core and zinc-based NMOF(Zn-NMOF)as the shell(DFNS@Zn-NMOF)through a solution-based approach.The combined fibrous morphology of DFNS and micropores of NMOF can be directly employed for nanospace engineering in the resulting multi-compositional and hierarchical systems in a controllable manner.The DFNS/Au dots@Zn-NMOF nanohybrid shows improved catalytic performance in the Knoevenagel condensation reaction,attributed mainly to the cooperative effect stemming from the suitably organized configurations of each component.展开更多
In situ formation of composite micro-mesoporous dendritic fibrous nano-silica(DFNS) and Al-DFNS was prepared using a cetylpyridinium bromide(CPB) template synthetic system. Dealumination is induced by impregnation of ...In situ formation of composite micro-mesoporous dendritic fibrous nano-silica(DFNS) and Al-DFNS was prepared using a cetylpyridinium bromide(CPB) template synthetic system. Dealumination is induced by impregnation of zirconium with flux followed by a sulfuric acid treatment. This procedure results in a series of highly uniform nano-spheres, which exhibit stronger acid property than that of Al-MCM-41. In the selective alkylation of anthracene with tert–amyl alcohol, SO_(4)^(2-)modified Zr-contained dealuminated Al-DFNS(SZ-De Al-DFNS) shows great catalytic activity and higher conversion(60.8%). The DFNS samples were characterized with XRD, SEM, TEM, NH_(3)-TPD and other techniques. The results reveal that DFNSs consist of center-radial micro-mesopores and that the acid contribution of SZ-De Al-DFNS is much broader,as compared with amorphous aluminosilicate.展开更多
基金This research was supported by the National Research Foundation of Korea(NRF)grant funded by the Korea government(Ministry of Science and ICT,MSICT)(NRF-2015R1A4A1041631 and NRF-2016R1A2B4009281)This research was also supported by the research fund of Hanyang University(201900000002834).
文摘Advanced hybrid nanomaterials(nanohybrids)with unique tailored morphologies and compositions have been used for the target-oriented catalysts due to the structural or supportive properties of each moiety and the synergistic properties of the individual components.The rational design and development of nanohybrids by integrating highly porous silica into a nano metal-organic framework(NMOF)are expected to enable unique nanospace engineering in the resulting systems to optimize their utility in the target areas.Herein,we report the design and fabrication of advanced nanohybrids composed of dendritic fibrous nanosilica(DFNS)and DFNS/gold(DFNS/Au)hybrids as the core and zinc-based NMOF(Zn-NMOF)as the shell(DFNS@Zn-NMOF)through a solution-based approach.The combined fibrous morphology of DFNS and micropores of NMOF can be directly employed for nanospace engineering in the resulting multi-compositional and hierarchical systems in a controllable manner.The DFNS/Au dots@Zn-NMOF nanohybrid shows improved catalytic performance in the Knoevenagel condensation reaction,attributed mainly to the cooperative effect stemming from the suitably organized configurations of each component.
基金supported by the Zhejiang Provincial Key Laboratory of Advanced Chemical Engineering Manufacture Technology (No. 2017E10001)。
文摘In situ formation of composite micro-mesoporous dendritic fibrous nano-silica(DFNS) and Al-DFNS was prepared using a cetylpyridinium bromide(CPB) template synthetic system. Dealumination is induced by impregnation of zirconium with flux followed by a sulfuric acid treatment. This procedure results in a series of highly uniform nano-spheres, which exhibit stronger acid property than that of Al-MCM-41. In the selective alkylation of anthracene with tert–amyl alcohol, SO_(4)^(2-)modified Zr-contained dealuminated Al-DFNS(SZ-De Al-DFNS) shows great catalytic activity and higher conversion(60.8%). The DFNS samples were characterized with XRD, SEM, TEM, NH_(3)-TPD and other techniques. The results reveal that DFNSs consist of center-radial micro-mesopores and that the acid contribution of SZ-De Al-DFNS is much broader,as compared with amorphous aluminosilicate.
