Synthesis of donor-acceptor compounds based on azulene

IF 0.3 Q4 CHEMISTRY, MULTIDISCIPLINARY
N. Merkhatuly, A. Iskanderov, S. Zhokizhanova, Bibizhan Erniyazova
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Abstract

At present, non-benzenoid aromatic hydrocarbons are widely used as precursors for the synthesis of new materials with useful electronic properties. In particular, the non-alternative aromatic hydrocarbon azulen with a unique dipole structure and a tendency to form stabilized radical ions should be predetermined as a building block for obtaining new π-conjugated systems with interesting optoelectronic properties. This article discusses the directed synthesis and study of optical properties of new donor-acceptor compounds based on azulene. It was shown that for the synthesis of donor-acceptor phenylketone azulenes, the reaction of directed (to positions С1 and С3) acylation with benzoyl chloride in the presence of Li2MnCl4 in tetrahydrofuran was used for the first time as a key step. It was found that push-pull phenyldicyanovinyl azulenes obtained by Knoevenagel condensation of azulenylketones with malononitrile flow easily (with an increase in the yield of end products) in the presence of pyridine in dimethyl sulfoxide. Electron UV-visible spectra of phenyldicyanovinyl azulene compounds showed strong absorption bands in the visible region (λmax = 452 and 434 nm) caused by intense intramolecular charge transfer between the donor azulene ring and the acceptor phenyldicyanovinyl group.
基于天青烯的供体-受体化合物的合成
目前,非苯类芳烃被广泛用作合成具有有用电子性质的新材料的前体。特别是,具有独特偶极结构和形成稳定自由基离子的趋势的非替代芳烃天青应该被预先确定为获得具有有趣光电性质的新π-共轭体系的构建块。本文讨论了基于天青烯的新型供体-受体化合物的定向合成和光学性质研究。研究表明,在四氢呋喃中,在Li2MnCl4存在下,苯甲酰氯与供体-受体苯基酮天青的直接(到位置С1和С3)酰化反应首次被用作关键步骤。研究发现,在吡啶存在于二甲基亚砜中的情况下,通过天青酮与丙二腈的Knoevenagel缩合得到的推拉苯基双氰基乙烯基天青易于流动(最终产物的产率增加)。苯基双氰基乙烯基天青化合物的电子紫外-可见光谱在可见光区域(λmax=452和434nm)显示出强吸收带,这是由供体天青环和受体苯基双氰乙烯基之间的强烈分子内电荷转移引起的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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