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相关概念视频

π Electron Effects on Chemical Shift: Aromatic and Antiaromatic Compounds01:14

π Electron Effects on Chemical Shift: Aromatic and Antiaromatic Compounds

1.7K
In aromatic compounds, such as benzene, the circulation of (4n + 2) π-electrons sets up a diamagnetic or diatropic ring current around the perimeter of the molecule. This current induces a magnetic field that opposes the external field inside the ring and reinforces it on the outside. The protons in benzene are deshielded and exhibit high chemical shifts in the range 6.5–8.5 ppm. The shielding effect at the center of the ring is evident in complex aromatic molecules, such as...
1.7K
Aromatic Hydrocarbon Anions: Structural Overview01:18

Aromatic Hydrocarbon Anions: Structural Overview

3.5K
Neutral hydrocarbons like cyclopentadiene with an odd number of carbon atoms and one intervening CH2 group in the ring are not aromatic. Cyclopentadiene with 4 π electrons does not satisfy the 4n + 2 π electron rule. Additionally, the intervening CH2 group is sp3 hybridized and lacks a vacant p orbital, thereby interrupting the overlap of p orbitals in a continuous manner and preventing the delocalization of π electrons throughout the ring.
Due to the absence of continuous...
3.5K
Basicity of Aromatic Amines01:18

Basicity of Aromatic Amines

7.7K
The basicity of aromatic amines is much weaker than that of aliphatic amines due to the involvement of the lone pair of electrons over the N atom in resonance with the aryl rings. Generally, the electron-donating ability of any substituents on the aryl ring of aromatic amines increases the basicity of the amine by increasing electron density, and hence the availability of lone pair on the nitrogen. On the other hand, electron-withdrawing functional groups on the aryl ring of amines decrease the...
7.7K
NMR Spectroscopy of Aromatic Compounds01:14

NMR Spectroscopy of Aromatic Compounds

4.7K
Aromatic compounds can be identified or analyzed using proton NMR and carbon‐13 NMR. Typically, aromatic hydrogens or hydrogens directly bonded to the aromatic rings are strongly deshielded by the aromatic ring current. Therefore, they absorb in the range of 6.5–8.0 ppm in proton NMR spectra. For instance, aromatic hydrogens directly bonded to the benzene ring absorb at 7.3 ppm. However, aromatic hydrogens of larger rings absorb farther upfield or downfield than the ideal range.
4.7K
Spin–Spin Coupling: One-Bond Coupling01:17

Spin–Spin Coupling: One-Bond Coupling

1.2K
Coupling interactions are strongest between NMR-active nuclei bonded to each other, where spin information can be transmitted directly through the pair of bonding electrons. While nuclei polarize their electrons to the opposite spins, the bonding electron pair has opposite spins. Configurations with antiparallel nuclear spins are expected to be lower in energy. When coupling makes antiparallel states more favorable, J is considered to have a positive value. The one-bond coupling constant, 1J,...
1.2K
Frost Circles for Different Conjugated Systems01:18

Frost Circles for Different Conjugated Systems

3.3K
The inscribed polygon method is consistent with Hückel’s 4n + 2 rule and helps to learn whether the given cyclic compound is aromatic or not. The compound is stable and aromatic if every bonding molecular orbital (MO) is completely filled with a pair of electrons. However, if the non-bonding or antibonding orbitals are filled with electrons, the compound is unstable and not aromatic. Consider the Frost circle diagrams for cycloalkenes containing 4 to 8 carbons.
3.3K

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相关实验视频

Updated: May 4, 2026

Orientational Transition in a Liquid Crystal Triggered by the Thermodynamic Growth of Interfacial Wetting Sheets
06:26

Orientational Transition in a Liquid Crystal Triggered by the Thermodynamic Growth of Interfacial Wetting Sheets

Published on: May 15, 2017

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芳香性降低了单分子结节导电性.

Wenbo Chen1, Haixing Li, Jonathan R Widawsky

  • 1Department of Chemistry, Columbia University , New York, New York 10027, United States.

Journal of the American Chemical Society
|January 9, 2014
PubMed
概括

分子线的导电性随着五个环的芳香度增加而降低. 非芳香型环丁烯电线的电导率高于芳香型和烯电线.

科学领域:

  • 分子电子学分子电子学
  • 有机化学 有机化学
  • 凝聚物质物理学 凝聚物质物理学

背景情况:

  • 单分子电子提供了对电荷传输的精确控制.
  • 了解分子电线中的结构-属性关系对于设备设计至关重要.

研究的目的:

  • 研究分子电线中循环五环的芳香度与它们的电导率之间的关系.
  • 确定分子结构如何影响单个分子层面的电荷传输.

主要方法:

  • 使用基于扫描道显微镜的断裂连接技术,形成和测量单分子连接.
  • 合成和测试含有环, furan 和 thiophene 环的分子电线.

主要成果:

  • 测量了含有环二烯, furan 和 thiophene 的电线的单分子导电性.
  • 观察到五个环的共振能量 (芳香度) 与测量的电导率之间存在负相关性.
  • 非芳香环二烯衍生物的导电能力高于芳香和烯衍生物.
  • 基电线的导电性始终高于类似的烯系统,证实了观察到的趋势的稳定性.

结论:

  • 分子骨干的芳香度显著影响单分子导电性.

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Single-Molecule Förster Resonance Energy Transfer Methods for Real-Time Investigation of the Holliday Junction Resolution by GEN1
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Single-Molecule Förster Resonance Energy Transfer Methods for Real-Time Investigation of the Holliday Junction Resolution by GEN1
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  • 较低的芳香度,特别是有利于形的结构,导致电导率更高.
  • 这些发现表明,分子设计策略应该考虑尽量减少芳香稳定,以提高分子线的导电性.