无机积雪烯的合成、几何结构和电子结构

IF 14.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Jianqin Tang, Chenyang Hu, Agamemnon E. Crumpton, Maximilian Dietz, Debotra Sarkar, Liam P. Griffin, Jose M. Goicoechea* and Simon Aldridge*, 
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引用次数: 0

摘要

由于人们对扩展 π 系统的电子结构和应用以及它们与碳同素异形体碳烯的关系感兴趣,双配位碳原子分子链(积碳)长期以来一直是研究的目标。虽然二维(2-D)材料已经采用了形式(等电子)B═N 对 C═C 的取代,但不饱和的一维全无机 "分子线 "还不为人知。在此,我们报告了含有五原子 BNBNB 链的杂茂烯烃的高产合成方法,该链的几何结构可通过选择末端基团而改变。二氨基封端体系在 2-/4 位弯曲,自然共振理论计算显示,B═N(:)-B≡N-B 共振形式具有显著的贡献,其特点是 N 位有一个孤对(与观察到的 N 中心亲核性一致)。要生成一个由 B═N═B═N═B 共振结构描述的线性系统,需要对封端基团(使用 B(C5F5)3)进行化学转化,以增强其 π-酸度并轭合 N 孤对。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Syntheses, Geometric and Electronic Structures of Inorganic Cumulenes

Molecular chains of two-coordinate carbon atoms (cumulenes) have long been targeted, due to interest in the electronic structure and applications of extended π-systems, and their relationship to the carbon allotrope, carbyne. While formal (isoelectronic) B═N for C═C substitution has been employed in two-dimensional (2-D) materials, unsaturated one-dimensional all-inorganic “molecular wires” are unknown. Here, we report high-yielding synthetic approaches to heterocumulenes containing a five-atom BNBNB chain, the geometric structure of which can be modified by choice of end group. The diamido-capped system is bent at the 2-/4-positions, and natural resonance theory calculations reveal significant contributions from B═N(:)–B≡N–B resonance forms featuring a lone pair at N (consistent with observed N-centered nucleophilicity). Molecular modification to generate a linear system best described by a B═N═B═N═B resonance structure involves chemical transformation of the capping groups (using B(C5F5)3) to enhance their π-acidity and conjugate the N-lone pairs.

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来源期刊
CiteScore
24.40
自引率
6.00%
发文量
2398
审稿时长
1.6 months
期刊介绍: The flagship journal of the American Chemical Society, known as the Journal of the American Chemical Society (JACS), has been a prestigious publication since its establishment in 1879. It holds a preeminent position in the field of chemistry and related interdisciplinary sciences. JACS is committed to disseminating cutting-edge research papers, covering a wide range of topics, and encompasses approximately 19,000 pages of Articles, Communications, and Perspectives annually. With a weekly publication frequency, JACS plays a vital role in advancing the field of chemistry by providing essential research.
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