Hernández-López Laura, Martínez-Esaín Jordi, Carné-Sánchez Arnau, Grancha Thais, Faraudo Jordi, Maspoch Daniel
Catalan Institute of Nanoscience and Nanotechnology (ICN2), CSIC and The Barcelona Institute of Science and Technology, Campus UAB, Bellaterra, 08193, Barcelona, Spain.
Institut de Ciència de Materials de Barcelona (ICMAB-CSIC), 08193, Bellaterra, Spain.
Angew Chem Int Ed Engl. 2021 May 10;60(20):11406-11413. doi: 10.1002/anie.202100091. Epub 2021 Apr 12.
The physicochemical similarity of isomers makes their chemical separation through conventional techniques energy intensive. Herein, we report that, instead of using traditional encapsulation-driven processes, steric hindrance in metal coordination on the outer surface of Rh -based metal-organic polyhedra (Rh-MOPs) can be used to separate pyridine-based regioisomers via liquid-liquid extraction. Through molecular dynamics simulations and wet experiments, we discovered that the capacity of pyridines to coordinatively bind to Rh-MOPs is determined by the positions of the pyridine substituents relative to the pyridine nitrogen and is influenced by steric hindrance. Thus, we exploited the differential solubility of bound and non-bound pyridine regioisomers to engineer liquid-liquid self-sorting systems. As a proof of concept, we separated four different equimolecular mixtures of regioisomers, including a mixture of the industrially relevant compounds 2-chloropyridine and 3-chloropyridine, isolating highly pure compounds in all cases.
异构体的物理化学相似性使得通过传统技术对其进行化学分离需要消耗大量能量。在此,我们报告,基于铑的金属有机多面体(Rh-MOPs)外表面的金属配位中的空间位阻可用于通过液-液萃取分离吡啶基区域异构体,而不是使用传统的封装驱动过程。通过分子动力学模拟和湿实验,我们发现吡啶与Rh-MOPs配位结合的能力取决于吡啶取代基相对于吡啶氮的位置,并受空间位阻影响。因此,我们利用结合和未结合的吡啶区域异构体的不同溶解度来设计液-液自分类系统。作为概念验证,我们分离了四种不同的区域异构体等分子混合物,包括工业相关化合物2-氯吡啶和3-氯吡啶的混合物,在所有情况下都分离出了高纯度化合物。
