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杂环稠合环戊二烯钾的结构多样性。

The structural diversity of heterocycle-fused potassium cyclopentadienides.

作者信息

Nifant'ev Ilya E, Vinogradov Alexander A, Minyaev Mikhail E, Komarov Pavel D, Lyssenko Konstantin A, Birin Kirill P, Dyadchenko Viktor P, Ivchenko Pavel V

机构信息

A. V. Topchiev Institute of Petrochemical Synthesis, Russian Academy of Sciences Leninsky Pr. 29 Moscow 119991 Russian Federation

Chemistry Department, M. V. Lomonosov Moscow State University Leninskie Gory, 1-3 Moscow 119991 Russian Federation.

出版信息

RSC Adv. 2019 Sep 17;9(50):29195-29204. doi: 10.1039/c9ra04587b. eCollection 2019 Sep 13.

DOI:10.1039/c9ra04587b
PMID:35528394
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9071847/
Abstract

Cyclopentadienides of d- and f-elements are highly important complexes with undoubted potential for practical applications. Annelation of a heterocyclic fragment with an η-ring results in substantial improvement of the catalytic properties of these compounds, called "heterocenes"; the investigation of metal coordination with these specific ligands is a highly important problem. We prepared potassium derivatives 5-8 of heterocycle-annelated cyclopentadienes with different structures - derivatives of cyclopenta[1,2-:4,3-']dithiophene (1), indeno[2,1-]indole (2), indeno[1,2-]indole (3), and indeno[1,2-]indolizine (4) and studied the crystal and molecular structures of these salts by X-ray diffraction. We found that heterocycle-fused cyclopentadienides demonstrate remarkable diversity in metal-ligand coordination modes and crystal packing, with formation of two-dimensional polymeric (5), linear polymeric (6), tetrameric (7) and monomeric (8) structures. The NMR spectral data and results of DFT modeling indicate an increase in electron density in the cyclopentadienyl fragment, and this effect was found to be larger in the derivative of the new indolizine ligand precursor 4. The results of our study will be used in the design of next-generation catalysts of α-olefin polymerization.

摘要

d族和f族元素的环戊二烯化物是非常重要的配合物,具有毋庸置疑的实际应用潜力。杂环片段与η环的稠合导致这些被称为“杂茂”的化合物的催化性能有显著改善;研究金属与这些特定配体的配位是一个非常重要的问题。我们制备了具有不同结构的杂环稠合环戊二烯的钾衍生物5-8——环戊并[1,2-:4,3-']二噻吩(1)、茚并[2,1-]吲哚(2)、茚并[1,2-]吲哚(3)和茚并[1,2-]中氮茚(4)的衍生物,并通过X射线衍射研究了这些盐的晶体和分子结构。我们发现,杂环稠合的环戊二烯化物在金属-配体配位模式和晶体堆积方面表现出显著的多样性,形成了二维聚合物(5)、线性聚合物(6)、四聚体(7)和单体(8)结构。核磁共振光谱数据和密度泛函理论建模结果表明,环戊二烯基片段中的电子密度增加,并且发现这种效应在新的中氮茚配体前体4的衍生物中更大。我们的研究结果将用于设计下一代α-烯烃聚合催化剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fae2/9071847/454258069ced/c9ra04587b-f6.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/fae2/9071847/1c32c064d0e1/c9ra04587b-f2.jpg
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