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相关概念视频

Ion Exchange01:17

Ion Exchange

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Ion exchange chromatography separates charged molecules from a solution by reversibly exchanging them with mobile, or 'active', ions associated with the oppositely charged stationary phase. This method can be used to separate ions, soften and deionize water, and purify solutions. The polymers comprising the ion-exchange column are high-molecular-weight and chemically stable polymers, crosslinked to be porous and essentially insoluble. They are also functionalized with either acidic or...
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Metal-Ligand Bonds02:51

Metal-Ligand Bonds

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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...
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Complexation Equilibria: The Chelate Effect01:19

Complexation Equilibria: The Chelate Effect

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In complexation reactions, metal atoms or cations interact with ligands to form donor-acceptor adducts called metal complexes. Ligands that bind through one donor site are monodentate, ligands with two donor sites are bidentate, and those with more than two donor sites are polydentate ligands. For example, ethylene diamine is a bidentate ligand that binds through two nitrogen donor atoms, forming a five-membered ring. EDTA is a polydentate ligand that binds through four oxygen and two nitrogen...
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Formation of Complex Ions03:45

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A type of Lewis acid-base chemistry involves the formation of a complex ion (or a coordination complex) comprising a central atom, typically a transition metal cation, surrounded by ions or molecules called ligands. These ligands can be neutral molecules like H2O or NH3, or ions such as CN− or OH−. Often, the ligands act as Lewis bases, donating a pair of electrons to the central atom. These types of Lewis acid-base reactions are examples of a broad subdiscipline called coordination...
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Arenediazonium substitution reactions occur when the diazonium group is substituted by various functional groups such as halides, hydroxyl, nitrile, etc. For instance, arenediazonium salts react with copper(I) salts of chloride, bromide, or cyanide to form corresponding aryl chlorides, bromides, and nitriles. These reactions are named Sandmeyer reactions. Although the mechanism of this reaction is complicated, as illustrated in Figure 1, they are believed to progress via an aryl copper...
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The electrophilic addition of hydrogen halides such as HBr to alkenes and nonconjugated dienes gives a single product as per Markovnikov’s rule.
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Updated: Oct 25, 2025

Fabrication of Ti3C2 MXene Microelectrode Arrays for In Vivo Neural Recording
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可以将阳离子插入MXene吗?

Netanel Shpigel1, Arup Chakraborty1, Fyodor Malchik2

  • 1Department of Chemistry and BINA-BIU Center for Nanotechnology and Advanced Materials, Bar-Ilan University, Ramat-Gan 5290002, Israel.

Journal of the American Chemical Society
|August 6, 2021
PubMed
概括
此摘要是机器生成的。

即使在缩的电解质中,也不可能将阳离子插入Ti3C2Tx (MXene) 电极. 这一发现澄清了MXene在储能方面的行为,

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Last Updated: Oct 25, 2025

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科学领域:

  • 材料科学
  • 电化学
  • 能量储存

背景情况:

  • 对于高功率电池和超级电容器而言,Ti3C2Tx (MXene) 是有前途的.
  • 阴离子及其在MXene电极中的作用尚不清楚.
  • 在稀释的电解质中有限的阳性稳定性阻碍了MXene的性能.

研究的目的:

  • 调查离子插入MXene电极的可能性.
  • 使用MXene澄清阴离子在电化学能量储存中的作用.
  • 确定阴离子插入是否发生在容量储能的运行潜力范围内.

主要方法:

  • 现场重力测量电化学石英晶体微平衡与散射监测 (EQCM-D) 测量
  • 在高度缩的LiCl和LiBr电解质中进行的实验,以扩大正电位范围.
  • 补充密度函数理论 (DFT) 的计算.

主要成果:

  • 质量变化的变化表明没有显著的离子插入到MXene电极中.
  • 即使在缩的电解质和扩展的潜在范围中也没有观察到阴离子间隔.
  • 密度函数理论的计算支持实验结果.

结论:

  • 阳离子物种不太可能在容量储能相关的潜力范围内化为Ti3C2Tx (MXene).
  • 由于功能组,MXene板上的强负电荷阻止了离子插入.
  • 这一发现为MXene电极的行为和储能应用的局限性提供了关键的见解.