异三金属配位化合物的可控形成：将镧系元素和碱金属离子系统地引入锰12-金属冠-4框架中。

Controllable formation of heterotrimetallic coordination compounds: systematically incorporating lanthanide and alkali metal ions into the manganese 12-metallacrown-4 framework.

作者信息

Azar Michael R, Boron Thaddeus T, Lutter Jacob C, Daly Connor I, Zegalia Kelcie A, Nimthong Ruthairat, Ferrence Gregory M, Zeller Matthias, Kampf Jeff W, Pecoraro Vincent L, Zaleski Curtis M

机构信息

Department of Chemistry, Shippensburg University , 1871 Old Main Drive, Shippensburg, Pennsylvania 17257-2200, United States.

出版信息

Inorg Chem. 2014 Feb 3;53(3):1729-42. doi: 10.1021/ic402865p. Epub 2014 Jan 13.

DOI:10.1021/ic402865p

PMID:24417545

Abstract

The inclusion of Ln(III) ions into the 12-MC-4 framework generates the first heterotrimetallic complexes of this molecular class. The controllable and deliberate preparations of these compounds are demonstrated through 12 crystal structures of the Ln(III)M(I)(OAc)412-MCMn(III)(N)shi-44·6DMF complex, where OAc(-) is acetate, shi(3-) is salicylhydroximate, and DMF is N,N-dimethylformamide. Compounds 1-12 have M(I) as Na(I), and Ln(III) can be Pr(III) (1), Nd(III) (2), Sm(III) (3), Eu(III) (4), Gd(III) (5), Tb(III) (6), Dy(III) (7), Ho(III) (8), Er(III) (9), Tm(III) (10), Yb(III) (11), and Y(III) (12). An example with M(I) = K(I) and Ln(III) = Dy(III) is also reported (Dy(III)K(OAc)412-MCMn(III)(N)shi-44·DMF (14)). When La(III), Ce(III), or Lu(III) is used as the Ln(III) ions to prepare the Ln(III)Na(I)(OAc)4[12-MCMn(III)(N)shi-4] complex, the compound Na2(OAc)212-MCMn(III)(N)shi-46·2DMF·1.60H2O (13) results. For compounds 1-12, the identity of the Ln(III) ion affects the 12-MCMn(III)(N)shi-4 framework as the largest Ln(III), Pr(III), causes an expansion of the 12-MCMn(III)(N)shi-4 framework as demonstrated by the largest metallacrown cavity radius (0.58 Å for 1 to 0.54 Å for 11), and the Pr(III) causes the 12-MCMn(III)(N)shi-4 framework to be the most domed structure as evident in the largest average angle about the axial coordination of the ring Mn(III) ions (103.95° for 1 to 101.69° for 11). For 14, the substitution of K(I) for Na(I) does not significantly affect the 12-MCMn(III)(N)shi-4 framework as many of the structural parameters such as the metallacrown cavity radius (0.56 Å) fall within the range of compounds 1-12. However, the use of the larger K(I) ion does cause the 12-MCMn(III)(N)shi-4 framework to become more planar as evident in a smaller average angle about the axial coordination of the ring Mn(III) ions (101.35°) compared to the analogous Dy(III)/Na(I) (7) complex (102.40°). In addition to broadening the range of structures available through the metallacrown analogy, these complexes allow for the mixing and matching of a diverse range of metals that might permit the fine-tuning of molecular properties where one day they may be exploited as magnetic materials or luminescent agents.

摘要

将Ln(III)离子纳入12 - MC - 4框架生成了此类分子的首个异三金属配合物。通过Ln(III)M(I)(OAc)412 - MCMn(III)(N)shi - 44·6DMF配合物的12个晶体结构证明了这些化合物的可控且精心的制备，其中OAc(-)为乙酸根，shi(3 -)为水杨羟肟酸根，DMF为N,N - 二甲基甲酰胺。化合物1 - 12中M(I)为Na(I)，Ln(III)可以是Pr(III) (1)、Nd(III) (2)、Sm(III) (3)、Eu(III) (4)、Gd(III) (5)、Tb(III) (6)、Dy(III) (7)、Ho(III) (8)、Er(III) (9)、Tm(III) (10)、Yb(III) (11)和Y(III) (12)。还报道了一个M(I) = K(I)且Ln(III) = Dy(III)的例子（Dy(III)K(OAc)412 - MCMn(III)(N)shi - 44·DMF (14)）。当使用La(III)、Ce(III)或Lu(III)作为Ln(III)离子来制备Ln(III)Na(I)(OAc)4[12 - MCMn(III)(N)shi - 4]配合物时，得到化合物Na2(OAc)212 - MCMn(III)(N)shi - 46·2DMF·1.60H2O (13)。对于化合物1 - 12，Ln(III)离子的身份会影响12 - MCMn(III)(N)shi - 4框架，因为最大的Ln(III)，即Pr(III)，会导致12 - MCMn(III)(N)shi - 4框架扩张，如最大的金属冠腔半径所示（1中为0.58 Å至11中为0.54 Å），并且Pr(III)导致12 - MCMn(III)(N)shi - 4框架成为最圆顶状的结构，这在环Mn(III)离子轴向配位的最大平均角度中很明显（1中为103.95°至11中为101.69°）。对于14，用K(I)替代Na(I)对12 - MCMn(III)(N)shi - 4框架没有显著影响，因为许多结构参数如金属冠腔半径（0.56 Å）落在化合物1 - 12的范围内。然而，使用较大的K(I)离子确实会使12 - MCMn(III)(N)shi - 4框架变得更平面，这在环Mn(III)离子轴向配位的平均角度较小（101.35°）中很明显，与类似的Dy(III)/Na(I) (7)配合物（102.40°）相比。除了通过金属冠类似物拓宽可用结构的范围外，这些配合物还允许混合和匹配各种不同的金属，这可能允许对分子性质进行微调，有朝一日它们可能被用作磁性材料或发光剂。

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异三金属配位化合物的可控形成：将镧系元素和碱金属离子系统地引入锰12-金属冠-4框架中。

Controllable formation of heterotrimetallic coordination compounds: systematically incorporating lanthanide and alkali metal ions into the manganese 12-metallacrown-4 framework.

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