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相关概念视频

Chair Conformation of Cyclohexane02:02

Chair Conformation of Cyclohexane

14.2K
The chair conformation is the most stable form of cyclohexane due to the absence of angle and torsional strain. The absence of angle strain is a result of cyclohexane’s bond angle being very close to the ideal tetrahedral bond angle of 109.5° in its chair conformer. Similarly, the torsional strain is also absent owing to the perfectly staggered arrangement of bonds.
The hydrogen atoms linked to carbons are arranged in two different axial and equatorial orientations to achieve this...
14.2K
Conformations of Cyclohexane02:11

Conformations of Cyclohexane

12.0K
Cyclohexane does not exist in a planar form due to the high angle and torsional strain it would experience in the planar structure. Instead, it adopts non-planar chair and boat conformations.
The chair form is the most stable and derives its name from its resemblance to the “easy chair.” In the chair conformation, two carbon atoms are arranged out-of-plane — one above and one below, minimizing the torsional strain. In the chair form, the bond angle is very close to the ideal...
12.0K
[3,3] Sigmatropic Rearrangement of Allyl Vinyl Ethers: Claisen Rearrangement01:24

[3,3] Sigmatropic Rearrangement of Allyl Vinyl Ethers: Claisen Rearrangement

2.1K
The Claisen rearrangement is a [3,3] sigmatropic rearrangement of allyl vinyl ethers to unsaturated carbonyl compounds. The rearrangement is a concerted pericyclic reaction proceeding via a chair-like transition state.
2.1K
Stereoisomerism of Cyclic Compounds02:33

Stereoisomerism of Cyclic Compounds

8.6K
In this lesson, we delve into the role of ring conformation and its stability, which determines the spatial arrangement and, consequently, the molecular symmetry and stereoisomerism of cyclic compounds. 1,2-Dimethylcyclohexane is used as a case study to evaluate the possible number of stereoisomers. Here, given the multiple (n = 2) chiral centers, there are 2n = 4 possible configurations that lack a plane of symmetry, as the ring skeleton exists in a non-planar chair conformation. In addition,...
8.6K
[3,3] Sigmatropic Rearrangement of 1,5-Dienes: Cope Rearrangement01:21

[3,3] Sigmatropic Rearrangement of 1,5-Dienes: Cope Rearrangement

2.6K
The Cope rearrangement is classified as a [3,3] sigmatropic shift in 1,5-dienes, leading to a more stable, isomeric 1,5-diene. The reaction involves a concerted movement of six electrons, four from two π bonds and two from a σ bond, via an energetically favorable chair-like transition state.
2.6K
Conformations of Cycloalkanes02:29

Conformations of Cycloalkanes

11.5K
Adolf von Baeyer attempted to explain the instabilities of small and large cycloalkane rings using the concept of angle strain — the strain caused by the deviation of bond angles from the ideal 109.5° tetrahedral value for sp3  hybridized carbons. However, while cyclopropane and cyclobutane are strained, as expected from their highly compressed bond angles, cyclopentane is more strained than predicted, and cyclohexane is virtually strain-free. Hence, Baeyer’s theory that...
11.5K

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Versatile CO2 Transformations into Complex Products: A One-pot Two-step Strategy
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在Co(acac)2通过旋转状态开关进行形态异构:一个计算研究.

Shalini Joshi1, Sabyasachi Roy Chowdhury1,2, Sabyashachi Mishra1

  • 1Department of Chemistry, Indian Institute of Technology Kharagpur, Kharagpur, India. mishra@chem.iitkgp.ac.in.

Dalton transactions (Cambridge, England : 2003)
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PubMed
概括
此摘要是机器生成的。

(II) 复合体中的联结体构造变化可以触发旋转过渡. 一个低能量的路径促进正方形平面 (低旋转) 和四面体 (高旋转) 状态之间的同质化,影响磁性特性.

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Facile Preparation of 2Z,4E-Dienamides by the Olefination of Electron-deficient Alkenes with Allyl Acetate
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科学领域:

  • 协调化学 协调化学
  • 计算化学计算化学
  • 材料科学 材料科学 材料科学

背景情况:

  • 过渡金属复合体中的联体动力学影响物理和磁性.
  • 电子配置和自旋状态对联体环境和分子几何学都很敏感.

研究的目的:

  • 在 (II) 二乙烯基酸盐 (Co (acac) 2) 复合体中研究旋转转变.
  • 阐明连接体形状重排在旋转状态变化的作用.

主要方法:

  • 电子结构计算.
  • 分子几何学和能量障碍的分析.
  • 计算磁性属性的计算.

主要成果:

  • Co(acac) 2 呈现正方形平面 (低旋转) 和四面体 (高旋转) 几何形状.
  • 通过最低能量交叉点的低能量路径促进了自旋状态合异构化.
  • 异构化障碍是10 kcal mol-1 (四面体到正方形平面) 和2 kcal mol-1 (反向).
  • 对于高旋转状态,计算出了57.6厘米-1的显著磁性异构性障碍.

结论:

  • 连接体的形态动力学可以诱导复合体中的旋转转换.
  • 已确定的低能耗路径可以实现高效的旋转状态相互转换.
  • 这些发现为设计具有可切换磁性质的材料提供了洞察力.