Department of Inorganic and Physical Chemistry, Indian Institution of Science, Bangalore 560 012, India.
Chemistry. 2012 Mar 12;18(11):3199-209. doi: 10.1002/chem.201102963. Epub 2012 Feb 7.
Template-assisted formation of multicomponent Pd(6) coordination prisms and formation of their self-templated triply interlocked Pd(12) analogues in the absence of an external template have been established in a single step through Pd-N/Pd-O coordination. Treatment of cis-[Pd(en)(NO(3))(2)] with K(3) tma and linear pillar 4,4'-bpy (en=ethylenediamine, H(3) tma=benzene-1,3,5-tricarboxylic acid, 4,4'-bpy=4,4'-bipyridine) gave intercalated coordination cage {Pd(en)}(6)(bpy)(3)(tma)(2)NO(3) (1) exclusively, whereas the same reaction in the presence of H(3) tma as an aromatic guest gave a H(3) tma-encapsulating non-interlocked discrete Pd(6) molecular prism [{Pd(en)}(6)(bpy)(3)(tma)(2)(H(3)tma)(2)]NO(3) (2). Though the same reaction using cis-[Pd(NO(3))(2)(pn)] (pn=propane-1,2-diamine) instead of cis-[Pd(en)(NO(3))(2)] gave triply interlocked coordination cage {Pd(pn)}(6)(bpy)(3)(tma)(2)NO(3) (3) along with non-interlocked Pd(6) analogue {Pd(pn)}(6)(bpy)(3) (tma)(2)(6) (3'), and the presence of H(3) tma as a guest gave H(3) tma-encapsulating molecular prism [{Pd(pn)}(6)(bpy)(3)(tma)(2)(H(3) tma)(2)]NO(3) (4) exclusively. In solution, the amount of 3' decreases as the temperature is decreased, and in the solid state 3 is the sole product. Notably, an analogous reaction using the relatively short pillar pz (pz=pyrazine) instead of 4,4'-bpy gave triply interlocked coordination cage {Pd(pn)}(6) (pz)(3)(tma)(2)NO(3) (5) as the single product. Interestingly, the same reaction using slightly more bulky cis-[Pd(NO(3))(2)(tmen)] (tmen=N,N,N',N'-tetramethylethylene diamine) instead of cis-[Pd(NO(3))(2)(pn)] gave non-interlocked [{Pd(tmen)}(6)(pz)(3)(tma)(2)]NO(3) (6) exclusively. Complexes 1, 3, and 5 represent the first examples of template-free triply interlocked molecular prisms obtained through multicomponent self-assembly. Formation of the complexes was supported by IR and multinuclear NMR ((1)H and (13)C) spectroscopy. Formation of guest-encapsulating complexes (2 and 4) was confirmed by 2D DOSY and ROESY NMR spectroscopic analyses, whereas for complexes 1, 3, 5, and 6 single-crystal X-ray diffraction techniques unambiguously confirmed their formation. The gross geometries of H(3) tma-encapsulating complexes 2 and 4 were obtained by universal force field (UFF) simulations.
在没有外部模板的情况下,通过 Pd-N/Pd-O 配位,已经在一步中建立了多组分 Pd(6)配位棱柱体的模板辅助形成以及它们自身模板三重互锁 Pd(12)类似物的形成。用 K(3) tma 和线性支柱 4,4'-bpy(en=乙二胺,H(3) tma=苯三甲酸,4,4'-bpy=4,4'-联吡啶)处理顺式-[Pd(en)(NO(3))(2)],得到插层配位笼 {Pd(en)}(6)(bpy)(3)(tma)(2)NO(3)(1),而在 H(3) tma 作为芳族客体存在的相同反应中,得到了不互锁的离散 Pd(6)分子棱柱体 [{Pd(en)}(6)(bpy)(3)(tma)(2)(H(3)tma)(2)]NO(3)(2)。虽然使用 cis-[Pd(NO(3))(2)(pn)](pn=丙烷-1,2-二胺)代替 cis-[Pd(en)(NO(3))(2)]进行相同的反应得到了三重互锁配位笼 {Pd(pn)}(6)(bpy)(3)(tma)(2)NO(3)(3)以及非互锁的 Pd(6)类似物 {Pd(pn)}(6)(bpy)(3)(tma)(2)(6)(3'),并且 H(3) tma 作为客体存在时会得到 H(3) tma 包封的分子棱柱体 [{Pd(pn)}(6)(bpy)(3)(tma)(2)(H(3) tma)(2)]NO(3)(4)。在溶液中,随着温度的降低,3'的量减少,而在固态中 3 是唯一的产物。值得注意的是,使用相对较短的支柱 pz(pz=吡嗪)代替 4,4'-bpy 进行类似的反应得到了三重互锁配位笼 {Pd(pn)}(6)(pz)(3)(tma)(2)NO(3)(5)作为单一产物。有趣的是,使用稍微更大的 cis-[Pd(NO(3))(2)(tmen)](tmen=N,N,N',N'-四甲基乙二胺)代替 cis-[Pd(NO(3))(2)(pn)]进行相同的反应,得到了非互锁的 [{Pd(tmen)}(6)(pz)(3)(tma)(2)]NO(3)(6)。复合物 1、3 和 5 代表通过多组分自组装获得的无模板三重互锁分子棱柱体的第一个实例。复合物的形成得到了红外和多核 NMR((1)H 和 (13)C)光谱的支持。客体包封复合物(2 和 4)的形成通过 2D DOSY 和 ROESY NMR 光谱分析得到证实,而对于复合物 1、3、5 和 6,单晶 X 射线衍射技术明确证实了它们的形成。通过通用力场(UFF)模拟获得了 H(3) tma 包封复合物 2 和 4 的总体几何形状。
