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相关概念视频

Aldehydes and Ketones with Amines: Imine Formation Mechanism01:23

Aldehydes and Ketones with Amines: Imine Formation Mechanism

5.1K
Imine formation involves the addition of carbonyl compounds to a primary amine. It begins with the generation of carbinolamine through a series of steps involving an initial nucleophilic attack and then several proton transfer reactions. The second part includes the elimination of water, as a leaving group, to give the imine.
Imines are formed under mildly acidic conditions. A pH of 4.5 is ideal for the reaction.
If the pH is low or the solution is too acidic, the reaction slows down in the...
5.1K
Aldehydes and Ketones with Amines: Imine and Enamine Formation Overview01:16

Aldehydes and Ketones with Amines: Imine and Enamine Formation Overview

4.3K
Primary amines react with carbonyl compounds—aldehydes and ketones—to generate imines. Imines consist of a C=N double bond and are named Schiff bases after its discoverer—the German chemist Hugo Schiff. On the other hand, secondary amines react with carbonyl compounds to give enamines. In enamines, the presence of a C=C double bond adjacent to the nitrogen atom leads to the delocalization of the lone pair.
4.3K
Anionic Chain-Growth Polymerization: Overview01:20

Anionic Chain-Growth Polymerization: Overview

2.0K
The polymerization process that involves carbanion as an intermediate is called anionic polymerization. It is also a type of addition or chain-growth polymerization. Anionic polymerization gets initiated by a strong nucleophile such as an organolithium or a Grignard reagent. The most commonly used initiator for anionic polymerization is butyl lithium. Monomers involved in anionic polymerization must possess a vinyl group bonded to one or two electron-withdrawing groups. For instance,...
2.0K
Anionic Chain-Growth Polymerization: Mechanism01:04

Anionic Chain-Growth Polymerization: Mechanism

2.0K
The mechanism for anionic chain-growth polymerization involves initiation, propagation, and termination steps. In the initiation step, a nucleophilic anion, such as butyl lithium, initiates the polymerization process by attacking the π bond of the vinylic monomer. As a result, a carbanion, stabilized by the electron‐withdrawing group, is generated. The resulting carbanion acts as a Michael donor in the propagation step and attacks the second vinylic monomer, which acts as a Michael...
2.0K
Olefin Metathesis Polymerization: Acyclic Diene Metathesis (ADMET)00:53

Olefin Metathesis Polymerization: Acyclic Diene Metathesis (ADMET)

1.9K
Acyclic diene metathesis polymerization or ADMET polymerization involves cross-metathesis of terminal dienes, such as 1,8-nonadiene, to give linear unsaturated polymer and ethylene. As ADMET is a reversible process, the formed ethylene gas must be removed from the reaction mixture to complete the polymerization process.
Similar to cross-metathesis, ADMET also involves the formation of metallacyclobutane intermediate by [2+2] cycloaddition of one of the double bonds of a terminal diene with...
1.9K
Cationic Chain-Growth Polymerization: Mechanism00:57

Cationic Chain-Growth Polymerization: Mechanism

2.2K
The cationic polymerization mechanism consists of three steps: initiation, propagation, and termination. In the initiation step of the polymerization process, the π bond of a monomer gets protonated by the Lewis acid catalyst, which is formed from boron trifluoride and water. The protonation of the π bond generates a carbocation stabilized by the electron‐donating group. In the propagation step, the π bond of the second monomer acts as a nucleophile and attacks the...
2.2K

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Updated: May 21, 2025

Synthesis of Information-bearing Peptoids and their Sequence-directed Dynamic Covalent Self-assembly
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基于胺的过渡性超分子聚合物

Gabriele Melchiorre1, Lucia Visieri2, Matteo Valentini1

  • 1Dipartimento di Chimica and Istituto CNR per i Sistemi Biologici (ISB-CNR), Sede Secondaria di Roma─Meccanismi di Reazione, c/o Dipartimento di Chimica, Università di Roma "La Sapienza", P.le A. Moro, 5, Rome I-00185, Italy.

Journal of the American Chemical Society
|March 19, 2025
PubMed
概括
此摘要是机器生成的。

研究人员开发了一种新方法,通过在动态组合库 (DCL) 中回收组件来创建临时的高分子聚合物. 这种方法使用燃料消散来在共价和超分子状态之间切换,模仿生物系统.

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科学领域:

  • 超分子化学
  • 动态共价化学
  • 化学系统

背景情况:

  • 对化学刺激做出反应的超分子系统可以模仿生物功能.
  • 许多系统依靠化学燃料消耗进行短暂的自组装和拆卸.
  • 之前的方法需要添加或删除组件来激活休眠物种进行聚合.

研究的目的:

  • 提出一种用于触发过渡性超分子聚合物的新方法.
  • 组合动态共价化学和超分子化学进行组件回收.
  • 通过消散的动态组合图书馆创建超分子聚合物.

主要方法:

  • 使用平衡的动态组合库 (DCL) 的 imines 和 amines.
  • 在短暂的酸性条件下用活性炭酸 (ACA) 治疗DCL.
  • 采用质子胺和冠以太部分之间的相互作用进行超分子组装.

主要成果:

  • 通过混合化学连接产生散射式DCL.
  • 成功触发过时的超分子聚合物.
  • 使用基和异甲衍生的原料证明了这一策略.
  • 展示了共价系统暂时转化为高分子聚合物.

结论:

  • 这种方法提供了一种通过燃料驱动的组件回收来控制超分子组装的新方法.
  • 这种方法可以在共价和超分子聚合物状态之间进行动态切换.
  • 这项工作为设计响应和适应性化学系统提供了洞察力.