Indian Institute of Technology , Powai, Mumbai 400076 , India.
Inorg Chem. 2019 Sep 16;58(18):12069-12082. doi: 10.1021/acs.inorgchem.9b01374. Epub 2019 Sep 4.
In contrast to the nonaromatic benziporphyrins, the -benziporphyrins possess aromatic character depending on the type of five-membered ring present in the macrocyclic core. The effects of changing the -benziporphyrinic core from CN to CNSN, CNSeN, and CNTeN by replacing the pyrrole with other five-membered heterocycles such as thiophene, selenophene, and tellurophene on aromatic properties of -benziporphyrins are described here using spectral, electrochemical, X-ray, and density functional theory (DFT) studies. The missing core-modified -benziporphyrins with CNSeN and CNTeN cores were synthesized by condensing 1 equiv of benzitripyrrane and 1,3-benzene-bis((4-phenyl)methanol with an appropriate diol such as 2,5-bis[(-tolyl)hyroxymethyl]selenophene and 2,5-bis(hydroxymethyl)tellurophene under mild acid-catalyzed conditions at room temperature and characterized in detail by high-resolution mass spectrometry (HR-MS), one- & two-dimensional NMR, and X-ray crystallography of the one of the macrocycles, Selena -benziporphyrin. The X-ray structure of Selena -benziporphyrin revealed that the macrocycle was almost planar apart from the -phenylene ring, which was deviated by 49.71° from the mean plane of the macrocycle defined by four carbons, unlike Selena -benziporphyrin, which is relatively more distorted. NMR studies revealed that, as the core changes from CN to CNSN, CNSeN, and CNTeN, the diatropic ring current decreases, indicating that the aromatic character also decreases in the same order. X-ray structure and DFT studies also revealed that the distortion in the macrocycle increases as the pyrrole ring of -benziporphyrin was replaced with other heterocycles such as furan, thiophene, selenophene, and tellurophene and that the tellura -benziporphyrin was the most distorted macrocycle among core-modified -benziporphyrins. Absorption and electrochemical properties were in agreement with these observations. Our repeated attempts on metalation of these -benziporphyrins resulted in the successful synthesis of a Pd(II) complex of tellura -benziporphyrin. The Pd(II) complex was characterized by HR-MS and NMR techniques, and the structure was optimized by DFT. The studies indicated that the Pd(II) ion was bonded to one of the pyrrolic nitrogens, tellurophene, tellurium, and two chloride ions in distorted square-planar geometry.
与非芳香苯并卟啉不同,-苯并卟啉具有芳香性,这取决于其大环核中环的类型。本文通过光谱、电化学、X 射线和密度泛函理论(DFT)研究,描述了通过用噻吩、硒吩和碲吩等五元杂环取代吡咯来改变-苯并卟啉核从 CN 到 CNSN、CNSeN 和 CNTeN 的类型对-苯并卟啉的芳香性质的影响。用适当的二醇如 2,5-双[(-甲苯基)羟甲基]硒吩和 2,5-双(羟甲基)碲吩与 1 当量的苯并三吡啶和 1,3-苯二酚缩合,在室温下在温和的酸催化条件下合成了缺失核心的-苯并卟啉衍生物,并用高分辨质谱(HR-MS)、一维和二维 NMR 以及其中一个大环的 X 射线晶体学进行了详细表征。Selena -benziporphyrin 的 X 射线结构表明,大环除了偏离大环中由四个碳原子定义的平面 49.71°的 -亚苯基环外,几乎是平面的,而不像 Selena -benziporphyrin 那样相对更扭曲。NMR 研究表明,随着核心从 CN 变为 CNSN、CNSeN 和 CNTeN,反磁环流减小,表明芳香性也按相同顺序降低。X 射线结构和 DFT 研究还表明,随着 -苯并卟啉的吡咯环被呋喃、噻吩、硒吩和碲吩等其他杂环取代,大环的扭曲程度增加,并且碲-苯并卟啉是核心修饰-苯并卟啉中最扭曲的大环。吸收和电化学性质与这些观察结果一致。我们对这些 -苯并卟啉进行金属化的反复尝试导致成功合成了碲-苯并卟啉的 Pd(II)配合物。Pd(II)配合物通过 HR-MS 和 NMR 技术进行了表征,并通过 DFT 进行了结构优化。研究表明,Pd(II)离子与一个吡咯氮、碲吩、碲、两个氯离子以扭曲的四方平面几何形状键合。
