出 处:《Chinese Journal of Structural Chemistry》2009年第11期1349-1358,共10页结构化学(英文)
基 金:supported by the State Key Laboratory of Structural Chemistry, NNSFC (20733003);Chinese Academy of Sciences (KJCX2-YW-M05);973 Program (2007CB815301, 2006CB932900);the NSF of Fujian Province (2006L2005, 2006J0014)
摘 要:The creation of a porous magnet is a long-sought academic goal since magnetism and porosity are hostile to one another. While long-range magnetic ordering needs spin carriers of short separation through short bridges, porosity relies on the use of extended connecting ligands. Here, we will give a survey of the cluster-based magnetic porous coordination polymers, i.e., 0-D MPCPs, according to their functional subunits: (1) nanoporous spin crossover materials with single metal nodes; (2) metal-radical approach with rigid organic radical ligands and single metal nodes; (C) PCPs with rigid organic ligands and metal oligomer nodes; (D) PCPs with metal complex linkers and polymetal cluster nodes; (E) PCPs with organo-polymetal cluster linkers and single metal nodes. The assembly from clusters can provide a reasonable route to resolve the hostility between magnetism and porosity. This assembly’s merits are obvious: the pore benefits from the big cluster according to "Scale Chemistry", and the functional framework inherits interesting physical properties from the clusters with a large ground spin S.The creation of a porous magnet is a long-sought academic goal since magnetism and porosity are hostile to one another. While long-range magnetic ordering needs spin carriers of short separation through short bridges, porosity relies on the use of extended connecting ligands. Here, we will give a survey of the cluster-based magnetic porous coordination polymers, i.e., 0-D MPCPs, according to their functional subunits: (1) nanoporous spin crossover materials with single metal nodes; (2) metal-radical approach with rigid organic radical ligands and single metal nodes; (C) PCPs with rigid organic ligands and metal oligomer nodes; (D) PCPs with metal complex linkers and polymetal cluster nodes; (E) PCPs with organo-polymetal cluster linkers and single metal nodes. The assembly from clusters can provide a reasonable route to resolve the hostility between magnetism and porosity. This assembly’s merits are obvious: the pore benefits from the big cluster according to "Scale Chemistry", and the functional framework inherits interesting physical properties from the clusters with a large ground spin S.
关 键 词:MAGNETISM POROSITY coordination polymers CLUSTER amino acids CITRATE
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