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Atomic Structure01:33

Atomic Structure

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Overview
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Atomic Mass01:52

Atomic Mass

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Atoms — and the protons, neutrons, and electrons that compose them — are extremely small. For example, a carbon atom weighs less than 2 × 10−23 g. When describing the properties of tiny objects such as atoms, we use appropriately small units of measure, such as the atomic mass unit (amu). The amu was originally defined based on hydrogen, the lightest element, then later in terms of oxygen. Since 1961, it has been defined with regard to the most abundant isotope of carbon, atoms of which...
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Atomic Orbitals02:44

Atomic Orbitals

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An atomic orbital represents the three-dimensional regions in an atom where an electron has the highest probability to reside. The radial distribution function indicates the total probability of finding an electron within the thin shell at a distance r from the nucleus. The atomic orbitals have distinct shapes which are determined by l, the angular momentum quantum number. The orbitals are often drawn with a boundary surface, enclosing densest regions of the cloud.
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The Quantum-Mechanical Model of an Atom02:45

The Quantum-Mechanical Model of an Atom

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Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra.
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Hybridization of Atomic Orbitals I03:24

Hybridization of Atomic Orbitals I

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The mathematical expression known as the wave function, ψ, contains information about each orbital and the wavelike properties of electrons in an isolated atom. When atoms are bound together in a molecule, the wave functions combine to produce new mathematical descriptions that have different shapes. This process of combining the wave functions for atomic orbitals is called hybridization and is mathematically accomplished by the linear combination of atomic orbitals. The new orbitals that...
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The Energies of Atomic Orbitals03:21

The Energies of Atomic Orbitals

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In an atom, the negatively charged electrons are attracted to the positively charged nucleus. In a multielectron atom, electron-electron repulsions are also observed. The attractive and repulsive forces are dependent on the distance between the particles, as well as the sign and magnitude of the charges on the individual particles. When the charges on the particles are opposite, they attract each other. If both particles have the same charge, they repel each other.
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相关实验视频

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Perspectives on Neuroscience
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原子精确的集群酶:神经科学的一个可编程光电子平台.

Si Sun1,2, Di Liu1, Sufei Zhou1

  • 1State Key Laboratory of Advanced Medical Materials and Devices, Academy of Medical Engineering and Translational Medicine, Tianjin University, Tianjin, 300072, China.

Advanced science (Weinheim, Baden-Wurttemberg, Germany)
|February 11, 2026
PubMed
概括
此摘要是机器生成的。

原子精确的金属集群,称为集群酶,提供可编程的生物催化功能和安全的分泌,克服了天然酶和纳米材料的局限性. 这些多功能集群在深层组织成像和脑计算机接口方面表现有前途.

关键词:
原子精度的原子精度.大脑电脑接口 脑电脑接口集群集群是指一个集群的集群.神经科学 神经科学可编程平台可编程平台

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科学领域:

  • 纳米材料科学 科学 纳米材料科学
  • 生物医学工程 生物医学工程
  • 催化剂是一种催化剂.

背景情况:

  • 原子精确的金属集群为各种应用提供了明确的结构.
  • 集群酶,来自金属集群的人工酶,提供可编程的活动和脏分泌.
  • 它们解决了天然酶的稳定性问题和纳米材料的安全问题.

研究的目的:

  • 系统地审查clusterzyme平台的合成,工程和应用.
  • 探索原子和连接体工程策略,用于编程生物催化活性.
  • 突出深层组织成像和脑计算机接口中的应用.

主要方法:

  • 对金属集群的合成策略的审查.
  • 用于活动编程的原子和连接体工程的分析.
  • 检查红外发射和半导体集群应用.

主要成果:

  • 详细介绍了通过原子/连接体工程编程生物催化活动的策略.
  • 红外发射集群使深层组织3D可视化成为可能.
  • 半导体黄金集群增强神经元记录,用于大脑与计算机的接口.

结论:

  • 集群酶代表了一个可编程的平台,在神经科学和生物医学方面具有重大潜力.
  • 为了合理设计和翻译开发,需要进一步的研究.
  • 这些进展有望为复杂的生物医学挑战提供解决方案.