By changing the solvents, three polyoxometalate(POM)-based supramolecular hybrids, [Co2 L3][SiW(12)O(40)]·17 H2 O(1),[Co2 L2(H2 O)4][SiW(12)O(40)].2 EtOH·2 H2 O(2) and [Co2 L3][SiW(12)O(40...By changing the solvents, three polyoxometalate(POM)-based supramolecular hybrids, [Co2 L3][SiW(12)O(40)]·17 H2 O(1),[Co2 L2(H2 O)4][SiW(12)O(40)].2 EtOH·2 H2 O(2) and [Co2 L3][SiW(12)O(40)]·9 DMA·6 H2 O(3), have been synthesized under hydrothermal or solvothermal conditions. All three hybrids show various supramolecular structures, which contain two kinds of different metal-organic motifs. A kind of metal-organic cationic cage [Co2 L3]^4+ is formed in the presence of H2 O for 1, DMA/H2 O for 3, and a metalorganic cationic circle [Co2 L2]^(4+) is constructed in the presence of EtOH/H2 O for 2. That is to say, the solvents show a key role in tuning the architectures of metal-organic fragments and the final POM-based supramolecular structures. The adsorption properties of 1-3 for different organic dyes have also been investigated.展开更多
基金financially supported by the National Natural Science Foundation of China(Nos. 21671025, 21471021, 21501013,21401010)Program for Distinguished Professor of Liaoning Province(No. 2015399)
文摘By changing the solvents, three polyoxometalate(POM)-based supramolecular hybrids, [Co2 L3][SiW(12)O(40)]·17 H2 O(1),[Co2 L2(H2 O)4][SiW(12)O(40)].2 EtOH·2 H2 O(2) and [Co2 L3][SiW(12)O(40)]·9 DMA·6 H2 O(3), have been synthesized under hydrothermal or solvothermal conditions. All three hybrids show various supramolecular structures, which contain two kinds of different metal-organic motifs. A kind of metal-organic cationic cage [Co2 L3]^4+ is formed in the presence of H2 O for 1, DMA/H2 O for 3, and a metalorganic cationic circle [Co2 L2]^(4+) is constructed in the presence of EtOH/H2 O for 2. That is to say, the solvents show a key role in tuning the architectures of metal-organic fragments and the final POM-based supramolecular structures. The adsorption properties of 1-3 for different organic dyes have also been investigated.
