Zhao Jiong-Peng, Zhao Cui, Song Wei-Chao, Wang Lei, Xie Yabo, Li Jian-Rong, Bu Xian-He
Beijing Key Laboratory for Green Catalysis and Separation, College of Environmental and Energy Engineering, Beijing University of Technology, Beijing 100124, P. R. China.
Dalton Trans. 2015 Jun 14;44(22):10289-96. doi: 10.1039/c5dt00568j.
The structure and magnetism of three cobalt(ii)-azide complexes, [Co(N3)2(bepy)2]n (), [Co2(N3)4(vipy)4]n (), and [Co(N3)2(bipy)]n () were tuned by three structurally related 4-substituent pyridines, 4-benzylpyridine (bepy), 4-vinyl pyridine (vipy), and 4,4'-bipyridine (bipy) as co-ligands in solvothermal reactions. With flexible benzyl as a substituent group of the pyridine co-ligand, a one-dimensional (1D) complex with double end-to-end (EE) azide-bridging Co(ii) chain is formed. While using a rigid but small vinyl group as the substituent, a distinct Co(ii)-azide chain with alternate double end-on (EO) and double EE azide bridges was obtained. Finally, when another pyridine group was used instead of the substituent incapable of coordinating in and , a bipyridine, it gave rise to a chiral complex with a three-dimensional (3D) diamondoid Co(ii)-azide framework further reinforced by the bipy ligand. Magnetic studies indicate antiferromagnetic interactions between the Co(ii) ions in the three complexes, but interestingly, weak antiferromagnetism origin of spin canting exists in at low temperatures.
通过三种结构相关的4-取代吡啶,即4-苄基吡啶(bepy)、4-乙烯基吡啶(vipy)和4,4'-联吡啶(bipy)作为共配体,在溶剂热反应中对三种叠氮化钴(II)配合物[Co(N₃)₂(bepy)₂]ₙ、[Co₂(N₃)₄(vipy)₄]ₙ和[Co(N₃)₂(bipy)]ₙ的结构和磁性进行了调控。以柔性苄基作为吡啶共配体的取代基,形成了一种具有双端到端(EE)叠氮桥联Co(II)链的一维(1D)配合物。当使用刚性但较小的乙烯基作为取代基时,得到了一种具有交替双端对端(EO)和双EE叠氮桥的独特Co(II)-叠氮链。最后,当使用另一个吡啶基团(即联吡啶)代替在[Co(N₃)₂(bepy)₂]ₙ和[Co₂(N₃)₄(vipy)₄]ₙ中不能配位的取代基时,产生了一种具有三维(3D)类金刚石Co(II)-叠氮骨架的手性配合物,该骨架通过联吡啶配体进一步得到加强。磁性研究表明这三种配合物中Co(II)离子之间存在反铁磁相互作用,但有趣的是,在低温下[Co(N₃)₂(bipy)]ₙ中存在由自旋倾斜引起的弱反铁磁性。
