双(八氮杂环)二镍(II)复合物中由去质子化激活的 C-C sigma 键的异构化途径:DFT 研究

IF 1.6 4区 化学 Q4 CHEMISTRY, PHYSICAL Theoretical Chemistry Accounts Pub Date : 2024-03-13 DOI:10.1007/s00214-024-03100-5
Ingrid Jelemenska, Michal Zalibera, Peter Rapta, Anatoly A. Dobrov, Vladimir B. Arion, Lukas Bucinsky
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引用次数: 0

摘要

研究了含有两个通过碳碳(C-C)σ键连接的 15 元八氮杂环单元的镍(II)二聚体的去质子化形式的反(a)到合(s)异构化途径。对于最初的反 (a) 结构,建议对其中一个桥接(sp3 杂化)碳原子进行去质子化处理,以实现从 a 到 s 的几何扭曲。首先围绕桥接 C-C 二面角进行 360° 扫描,以找到中间几何结构。随后,通过一系列模式冗余几何优化(内部坐标势能面扫描)和几何松弛,探索了通向 s 结构的单步异构化途径。我们选择了异构化途径中的主要几何结构(中间体),并将其与 a 和 s 结构进行了比较,还考虑了所选中间体质子化形式的几何松弛。
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Isomerization pathway of a C–C sigma bond in a bis(octaazamacrocycle)dinickel(II) complex activated by deprotonation: a DFT study

The anti (a) to syn (s) isomerization pathway of the deprotonated form of the dimer with two nickel(II) 15-membered octaazamacrocyclic units connected via a carbon–carbon (C–C) σ bond was investigated. For the initial anti (a) structure, a deprotonation of one of the bridging (sp3 hybridized) carbon atoms is suggested to allow for an a to s geometry twist. A 360° scan around the bridging C–C dihedral angle was performed first to find an intermediate geometry. Subsequently, the isomerization pathway was explored via individual steps using a series of mode redundant geometry optimizations (internal coordinates potential energy surface scans) and geometry relaxations leading to the s structure. The prominent geometries (intermediates) of the isomerization pathway are chosen and compared to the a and s structures, and geometry relaxations of the protonated forms of selected intermediates are considered.

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来源期刊
Theoretical Chemistry Accounts
Theoretical Chemistry Accounts 化学-物理化学
CiteScore
3.40
自引率
0.00%
发文量
74
审稿时长
3.8 months
期刊介绍: TCA publishes papers in all fields of theoretical chemistry, computational chemistry, and modeling. Fundamental studies as well as applications are included in the scope. In many cases, theorists and computational chemists have special concerns which reach either across the vertical borders of the special disciplines in chemistry or else across the horizontal borders of structure, spectra, synthesis, and dynamics. TCA is especially interested in papers that impact upon multiple chemical disciplines.
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