Näther Christian, Bhosekar Gaurav, Jess Inke
Institut für Anorganische Chemie der Christian-Albrechts-Universität zu Kiel, Olshausenstrasse 40, D-24098 Kiel, Germany.
Inorg Chem. 2007 Sep 17;46(19):8079-87. doi: 10.1021/ic701079x. Epub 2007 Aug 17.
The reaction of ZnI2 and pyrimidine in acetonitrile results in the formation of the 1:2 compound ZnI2(pyrimidine)2 (1), which consists of discrete tetrahedral building blocks. Slow heating of 1 at 1 degrees C/min leads to its transformation into the ligand-deficient intermediate 1:1 compound ZnI2(pyrimidine) (3), which upon further heating decomposes into the most ligand-deficient 2:1 compound (ZnI2)2(pyrimidine) (4). In contrast, the 2:3 compound (ZnI2)2(pyrimidine)3 (2) is formed as an intermediate by decomposing 1 using a faster heating rate of 8 degrees C/min. Compound 2 consists of oligomeric units in which each ZnI2 unit is coordinated by two iodine atoms and one bridging and one terminal pyrimidine ligand. The crystal structure of compound 3 is built up of ZnI2 units, which are connected by the ligands into chains. For the thermal transformation of 1 into 3 via 2 as the intermediate, a smooth reaction pathway is found in the crystal structure, for which only small translational and rotational changes are needed. The metastable solvated compound (ZnI2)(pyrimidine)(acetonitrile)0.25 (5) consisting of (ZnI2)4(pyrimidine)4 rings is obtained by quenching the reaction of ZnI2 and pyrimidine in acetonitrile using an antisolvent. On heating, 5 decomposes into a new polymorphic 1:1 compound 6, which consists of (ZnI2)(pyrimidine) chains. On further heating, 6 transforms into a third polymorphic 1:1 compound 7, which consists of (ZnI2)3(pyrimidine)3 rings, and finally into the 1:1 compound 3. Solvent-mediated conversion experiments reveal that compounds 1-4 are thermodynamically stable, whereas compounds 5-7 are metastable. Time-dependent crystallization experiments unambiguously show that compound 7 is formed by kinetic control and transforms within minutes into compound 6, which finally transforms into 3. Compound 3 represents the thermodynamically most stable 1:1 modification, whereas compounds 6 and 7 are metastable. The different compounds obtained by thermal decomposition and by crystallization from solution represent a snapshot of the species in solution and thus provide insight into the formation of coordination compounds.
碘化锌(ZnI₂)与嘧啶在乙腈中反应生成1:2化合物ZnI₂(pyrimidine)₂(1),它由离散的四面体结构单元组成。以1℃/分钟的速率缓慢加热1会导致其转变为配体不足的中间体1:1化合物ZnI₂(pyrimidine)(3),进一步加热时,该中间体分解为配体极度不足的2:1化合物(ZnI₂)₂(pyrimidine)(4)。相比之下,通过以8℃/分钟的较快加热速率分解1,可形成2:3化合物(ZnI₂)₂(pyrimidine)₃(2)作为中间体。化合物2由低聚单元组成,其中每个ZnI₂单元由两个碘原子以及一个桥连嘧啶配体和一个端基嘧啶配体配位。化合物3的晶体结构由ZnI₂单元构成,这些单元通过配体连接成链。对于1经由2作为中间体热转变为3的过程,在晶体结构中发现了一条平滑的反应路径,在此过程中仅需进行微小的平移和旋转变化。通过在乙腈中使用反溶剂淬灭ZnI₂与嘧啶的反应,可得到由(ZnI₂)₄(pyrimidine)₄环组成的亚稳溶剂化化合物(ZnI₂)(pyrimidine)(acetonitrile)₀.₂₅(5)。加热时,5分解为一种新的多晶型1:1化合物6,它由(ZnI₂)(pyrimidine)链组成。进一步加热时,6转变为第三种多晶型1:1化合物7,它由(ZnI₂)₃(pyrimidine)₃环组成,最终转变为1:1化合物3。溶剂介导的转化实验表明,化合物1 - 4是热力学稳定的,而化合物5 - 7是亚稳的。时间依赖性结晶实验明确表明,化合物7是通过动力学控制形成的,并在几分钟内转变为化合物6,化合物6最终转变为3。化合物3代表热力学上最稳定的1:1变体,而化合物6和7是亚稳的。通过热分解和从溶液中结晶得到的不同化合物代表了溶液中物种的一个瞬间,从而为配位化合物的形成提供了见解。
