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MO Theory and Covalent Bonding02:40

MO Theory and Covalent Bonding

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The molecular orbital theory describes the distribution of electrons in molecules in a manner similar to the distribution of electrons in atomic orbitals. The region of space in which a valence electron in a molecule is likely to be found is called a molecular orbital. Mathematically, the linear combination of atomic orbitals (LCAO) generates molecular orbitals. Combinations of in-phase atomic orbital wave functions result in regions with a high probability of electron density, while...
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Molecular Orbital Theory II03:51

Molecular Orbital Theory II

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Molecular Orbital Energy Diagrams
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¹H NMR: Complex Splitting01:13

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A proton M that is coupled to a proton X results in doublet signals for M. However, NMR-active nuclei can be simultaneously coupled to more than one nonequivalent nucleus. When M is coupled to a second proton A, such as in styrene oxide, each peak in the doublet is split into another doublet.
Splitting diagrams or splitting tree diagrams are routinely used to depict such complex couplings. While drawing splitting diagrams, the splitting with the larger coupling constant is usually applied...
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Valence Bond Theory02:42

Valence Bond Theory

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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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Overview of Molecular Orbital Theory
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Updated: Jul 12, 2025

Excitonic Hamiltonians for Calculating Optical Absorption Spectra and Optoelectronic Properties of Molecular Aggregates and Solids
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多配置对密度功能理论比你想象的要复杂得多.

Gabriel L S Rodrigues1, Mikael Scott1, Mickael G Delcey2

  • 1Division of Theoretical Chemistry and Biology, School of Engineering Sciences in Chemistry, Biotechnology and Health, KTH Royal Institute of Technology, Stockholm SE-100 44, Sweden.

The journal of physical chemistry. A
|October 27, 2023
PubMed
概括
此摘要是机器生成的。

这项研究揭示了将虚构组件纳入多配置对密度函数理论 (MC-PDFT) 计算中的必要性. 结合这个组件可以提高描述电子相关性的准确性,特别是在具有挑战性的分子系统中.

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科学领域:

  • 量子化学 是一个量子化学.
  • 计算化学的计算化学
  • 理论化学 理论化学

背景情况:

  • 多配置对密度函数理论 (MC-PDFT) 为建模强大和动态电子相关性提供了一种具有成本效益的方法.
  • 标准的旋转密度函数通常适用于MC-PDFT,可能会在旋转密度中引入非物理的虚构组件.
  • 当前的MC-PDFT方法通常会抛弃这些虚构组件,从而限制它们的准确性.

研究的目的:

  • 在MC-PDFT中调查虚构元件在翻译自旋密度中的物理意义.
  • 开发和验证一种形式主义,将虚构组件纳入改进的电子结构计算.
  • 评估这种形式主义对描述具有挑战性的电子相关性场景的影响.

主要方法:

  • 在MC-PDFT中开发了一个形式主义,包括转化自旋密度的非零虚构组成部分.
  • 将新形式主义应用于局部密度近似 (LDA) 和通用梯度近似 (GGA) 函数.
  • 该方法使用有机二极根和有机分子激发状态的单元-三元 (ST) 间隙进行了基准测试.

主要成果:

  • 包含虚构组件对于准确复制物理行为至关重要,特别是在低旋转的开系统中.
  • 与忽略虚构部分的现有方法相比,开发的MC-PDFT方案显示了更好的准确性.
  • 即使使用最小的活跃空间,也可以获得准确的结果,突出显示了该方法的效率.

结论:

  • 翻译自旋密度的虚构组成部分在物理上是相关的,并且对于准确的MC-PDFT计算至关重要.
  • 新的MC-PDFT形式主义提供了更强大,更准确的电子相关性描述.
  • 这一进步为更可靠的计算化学研究带来了希望,特别是对于具有复杂电子结构的系统.