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相关概念视频

Ferromagnetism01:31

Ferromagnetism

2.4K
Materials like iron, nickel, and cobalt consist of magnetic domains, within which the magnetic dipoles are arranged parallel to each other. The magnetic dipoles are rigidly aligned in the same direction within a domain by quantum mechanical coupling among the atoms. This coupling is so strong that even thermal agitation at room temperature cannot break it. The result is that each domain has a net dipole moment. However, some materials have weaker coupling, and are ferromagnetic at lower...
2.4K
Atomic Nuclei: Nuclear Spin State Overview01:03

Atomic Nuclei: Nuclear Spin State Overview

1.0K
NMR-active nuclei have energy levels called 'spin states' that are associated with the orientations of their nuclear magnetic moments. In the absence of a magnetic field, the nuclear magnetic moments are randomly oriented, and the spin states are degenerate. When an external magnetic field is applied, the spin states have only 2 + 1 orientations available to them. A proton with = ½ has two available orientations. Similarly, for a quadrupolar nucleus with a nuclear spin value of...
1.0K
Spin–Spin Coupling Constant: Overview01:08

Spin–Spin Coupling Constant: Overview

964
In bromoethane, the three methyl protons are coupled to the two methylene protons that are three bonds away. In accordance with the n+1 rule, the signal from the methyl protons is split into three peaks with 1:2:1 relative intensities. The methylene protons appear as a quartet, with the relative intensities of 1:3:3:1.
Qualitatively, any spin plus-half nucleus polarizes the spins of its electrons to the minus-half state. Consequently, the paired electron in the hydrogen–carbon bond must...
964
Spin–Spin Coupling: One-Bond Coupling01:17

Spin–Spin Coupling: One-Bond Coupling

1.0K
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,...
1.0K
Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)01:20

Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)

1.1K
Two NMR-active nuclei bonded to a central atom can be involved in geminal or two-bond coupling. Geminal coupling is commonly seen between diastereotopic protons in chiral molecules and unsymmetrical alkenes, among others.
The central atom need not be NMR-active because its electrons are affected by the electron polarization of the spin-active atoms. However, spin information is transmitted less effectively than in one-bond coupling, and 2J values are usually weaker than 1J values. The energy of...
1.1K
Valence Bond Theory02:42

Valence Bond Theory

8.9K
Coordination compounds and complexes exhibit different colors, geometries, and magnetic behavior, depending on the metal atom/ion and ligands from which they are composed. In an attempt to explain the bonding and structure of coordination complexes, Linus Pauling proposed the valence bond theory, or VBT, using the concepts of hybridization and the overlapping of the atomic orbitals. According to VBT, the central metal atom or ion (Lewis acid) hybridizes to provide empty orbitals of suitable...
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相关实验视频

Updated: Jul 27, 2025

Visualizing Uniaxial-strain Manipulation of Antiferromagnetic Domains in Fe1+YTe Using a Spin-polarized Scanning Tunneling Microscope
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Visualizing Uniaxial-strain Manipulation of Antiferromagnetic Domains in Fe1+YTe Using a Spin-polarized Scanning Tunneling Microscope

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可控制的二维铁电几层旋转分裂.

Shuyi Shi1, Kuan-Rong Hao2, Xing-Yu Ma2

  • 1Center of Materials Science and Optoelectronics Engineering, College of Materials Science and Optoelectronic Technology, University of Chinese Academy of Sciences, Beijing 100049, People's Republic of China.

Journal of physics. Condensed matter : an Institute of Physics journal
|June 9, 2023
PubMed
概括

少数层的胺 (γ-GeSe) 具有可调节的半导体和铁电性质. 这种新的二维材料显示出用于自旋和光电子设备的潜力,因为它具有可切换的自旋分裂和光学吸收.

关键词:
二维铁电材料是二维的铁电材料.第一个原则是计算.旋转轨道合器γ-GeSeSe 的时间.

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科学领域:

  • 材料科学 材料科学 材料科学
  • 凝聚物质物理学 凝聚物质物理学
  • 固态化学 固态化学

背景情况:

  • γ-GeSe是一种新型的分层散装材料,最近合成.
  • 二维 (2D) 材料具有独特的电子和物理性能.
  • 了解少数层 γ-GeSe 对于探索其潜在应用至关重要.

研究的目的:

  • 使用第一原则计算系统地研究少数层 γ-GeSe 的物理性质.
  • 探索2D γ-GeSe的电子,铁电和光学特性.
  • 评估几层 γ-GeSe 在先进技术应用中的潜力.

主要方法:

  • 基于密度函数理论 (DFT) 的第一原则计算.
  • 系统地研究电子带结构和层相关性质.
  • 对铁电切换屏障和旋转轨道合效应的分析.

主要成果:

  • 几层 γ-GeSe 是半导体,其带间隙取决于层数.
  • 具有n ≥2层的γ-GeSe具有低过渡障碍的铁电性.
  • 旋转轨道合引发可切换的旋转分裂,可通过铁电逆转和负压电引起的应变来调节.
  • 观察到优良的光学吸收特性.

结论:

  • 少数层 γ-GeSe 具有有前途的半导体,铁电和自旋依赖的电子特性.
  • 材料的特性可以通过控制层数和应用外部刺激,如应变来调整.
  • 2D γ-GeSe是下一代自旋电子和光电子设备的强有力的候选.