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相关概念视频

Metal-Ligand Bonds02:51

Metal-Ligand Bonds

20.9K
The hemoglobin in the blood, the chlorophyll in green plants, vitamin B-12, and the catalyst used in the manufacture of polyethylene all contain coordination compounds. Ions of the metals, especially the transition metals, are likely to form complexes.
In these complexes, transition metals form coordinate covalent bonds, a kind of Lewis acid-base interaction in which both of the electrons in the bond are contributed by a donor (Lewis base) to an electron acceptor (Lewis acid). The Lewis acid in...
20.9K
Crystal Field Theory - Octahedral Complexes02:58

Crystal Field Theory - Octahedral Complexes

26.7K
Crystal Field Theory
To explain the observed behavior of transition metal complexes (such as colors), a model involving electrostatic interactions between the electrons from the ligands and the electrons in the unhybridized d orbitals of the central metal atom has been developed. This electrostatic model is crystal field theory (CFT). It helps to understand, interpret, and predict the colors, magnetic behavior, and some structures of coordination compounds of transition metals.
CFT focuses on...
26.7K
Valence Bond Theory02:42

Valence Bond Theory

8.7K
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...
8.7K
Ligand Binding Sites02:40

Ligand Binding Sites

12.9K
Proteins are dynamic macromolecules that carry out a wide variety of essential processes; however, the activities of most proteins depend on their interactions with other molecules or ions, known as ligands.
Protein-ligand interactions are quite specific; even though numerous potential ligands surround a cellular protein at any given time, only a particular ligand can bind to that protein. Moreover, a ligand binds only to a dedicated area on the surface of the protein, known as the...
12.9K
Coordination Number and Geometry02:57

Coordination Number and Geometry

15.9K
For transition metal complexes, the coordination number determines the geometry around the central metal ion. Table 1 compares coordination numbers to molecular geometry. The most common structures of the complexes in coordination compounds are octahedral, tetrahedral, and square planar.
15.9K
Structural Isomerism02:34

Structural Isomerism

19.3K
Isomerism in Complexes
Isomers are different chemical species that have the same chemical formula. Structural isomerism of coordination compounds can be divided into two subcategories, the linkage isomers and coordination-sphere isomers.
Linkage isomers occur when the coordination compound contains a ligand that can bind to the transition metal center through two different atoms. For example, the CN− ligand can bind through the carbon atom or through the nitrogen atom. Similarly, SCN− can...
19.3K

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相关实验视频

Updated: Jul 16, 2025

Line Shape Analysis of Dynamic NMR Spectra for Characterizing Coordination Sphere Rearrangements at a Chiral Rhenium Polyhydride Complex
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在无机材料中以体为导向的形状重构.

Nishat Paul1, Lecheng Zhang2, Shijun Lei2

  • 1Department of Chemical Engineering, Texas Tech University, Lubbock, TX, 79409, USA.

Small (Weinheim an der Bergstrasse, Germany)
|September 19, 2023
PubMed
概括
此摘要是机器生成的。

研究人员通过控制表面功能来开发改变形状的粘土纳米粒子. 这些灵活的纳米粒子可以反向地改变形状,并作为稀土元素收集的自动化纳米机器.

关键词:
不对称的修改变化稀土回收 稀土回收是指稀土的回收.改变形状的变形动物立体化学是一种立体化学.表面化学 表面化学

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Fabrication Procedures and Birefringence Measurements for Designing Magnetically Responsive Lanthanide Ion Chelating Phospholipid Assemblies
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Facet-to-facet Linking of Shape-anisotropic Colloidal Cadmium Chalcogenide Nanostructures
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相关实验视频

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Fabrication Procedures and Birefringence Measurements for Designing Magnetically Responsive Lanthanide Ion Chelating Phospholipid Assemblies
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Facet-to-facet Linking of Shape-anisotropic Colloidal Cadmium Chalcogenide Nanostructures
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科学领域:

  • 材料科学 材料科学 材料科学
  • 纳米技术纳米技术
  • 表面化学 表面化学

背景情况:

  • 聚合物弹性体能够改变形状的人工肌肉和软机器人.
  • 无机纳米颗粒的可逆形状转换是困难的,因为刚性格子.

研究的目的:

  • 为了合成改变形状的无机纳米粒子.
  • 为了研究可逆纳米粒子形状转换的机制.
  • 开发用于元素吸附的自动化纳米机器.

主要方法:

  • 粘土纳米颗粒的不对称表面功能化使用各种连接体.
  • 研究功能组对形状转换的硬质障碍的作用.
  • 展示自行运动和离子吸附能力.

主要成果:

  • 在粘土纳米粒子中实现了快速,简单和可逆的形状转换.
  • 确定了纳米粒子表面上不平衡的结构障碍作为关键.
  • 开发了能够自主吸附稀土元素的自行驱动纳米游泳器.

结论:

  • 不对称的表面功能使无机纳米粒子的可逆形状转变成为可能.
  • 这种机制为创建自动推进的纳米机应用程序提供了一个平台.
  • 自然存在的材料可以用于自动供电纳米机器的开发.