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相关概念视频

Polymer Classification: Architecture01:14

Polymer Classification: Architecture

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Polymers are classified as linear or branched on the basis of their chain architecture. The polymer chains in linear polymers have a long chain-like structure with minimal to no branching at all. Even if a polymer features large substituent groups on the monomer, which appear as branches to the skeleton, it is not considered a branched polymer. A branched polymer contains secondary polymer chains that arise from the main polymer chain. The branching occurs when the polymer growth shifts from...
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Radical Chain-Growth Polymerization: Chain Branching01:17

Radical Chain-Growth Polymerization: Chain Branching

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The skeletal structure of polymers synthesized via radical polymerization is always branched. For example, the polymerization of ethylene by radical polymerization results in a low-density grade of polyethylene with a heavily branched skeletal structure. Here, the radical site abstracts hydrogen from the growing chain, and the radical site shifts from the end (a primary carbon center) to anywhere within the growing chain (a secondary carbon center). Consequently, the part of the chain from the...
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Polymer Classification: Crystallinity01:21

Polymer Classification: Crystallinity

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Unlike ionic or small covalent molecules, polymers do not form crystalline solids due to the diffusion limitations of their long-chain structures. However, polymers contain microscopic crystalline domains separated by amorphous domains.
Crystalline domains are the regions where polymer chains are aligned in an orderly manner and held together in proximity by intermolecular forces. For example, chains in the crystalline domains of polyethylene and nylon are bound together by van der Waals...
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Ziegler–Natta Chain-Growth Polymerization: Overview01:17

Ziegler–Natta Chain-Growth Polymerization: Overview

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Ziegler–Natta polymerization is another form of addition or chain‐growth polymerization used for synthesizing linear polymers over branched polymers. The catalyst used for polymerization is the Ziegler–Natta catalyst, named after Karl Ziegler and Giulio Natta, who developed it in 1953. This catalyst is an organometallic complex of titanium tetrachloride and triethyl aluminum, with the active form of the catalyst being an alkyl titanium compound. Using the Ziegler–Natta...
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Anionic Chain-Growth Polymerization: Overview01:20

Anionic Chain-Growth Polymerization: Overview

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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,...
2.1K
Polymers02:34

Polymers

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The word polymer is derived from the Greek words “poly” which means “many” and “mer” which means “parts”. Polymers are long chains of molecules composed of repeating units of smaller molecules, known as monomers. They either occur naturally, such as DNA and proteins, or can be constructed synthetically, like plastics. They have varied structural characteristics, such as linear chains, branched chains, or complex networks, that contribute to the...
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相关实验视频

Updated: Jul 2, 2025

Fabrication of a Bioactive, PCL-based "Self-fitting" Shape Memory Polymer Scaffold
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Fabrication of a Bioactive, PCL-based "Self-fitting" Shape Memory Polymer Scaffold

Published on: October 23, 2015

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机械互锁的[c2]百合链骨干,使先进的形状记忆聚合物材料成为可能.

Shang-Wu Zhou1, Danlei Zhou1, Ruirui Gu2

  • 1Key Laboratory for Advanced Materials and Joint International Research Laboratory of Precision Chemistry and Molecular Engineering, Feringa Nobel Prize Scientist Joint Research Center, Frontiers Science Center for Materiobiology and Dynamic Chemistry, Institute of Fine Chemicals, School of Chemistry and Molecular Engineering, East China University of Science and Technology, Shanghai, 200237, P. R. China.

Nature communications
|February 24, 2024
PubMed
概括
此摘要是机器生成的。

研究人员开发了一种具有形状记忆性质的新型聚合物,使用机械互锁[c2]百合链结构. 这些超分子交叉链增强了热控制,机械强度和形状恢复,为先进的形状记忆材料铺平了道路.

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Synthesis of Programmable Main-chain Liquid-crystalline Elastomers Using a Two-stage Thiol-acrylate Reaction
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Shape Memory Polymers for Active Cell Culture
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Shape Memory Polymers for Active Cell Culture

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相关实验视频

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Fabrication of a Bioactive, PCL-based "Self-fitting" Shape Memory Polymer Scaffold
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Fabrication of a Bioactive, PCL-based "Self-fitting" Shape Memory Polymer Scaffold

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Synthesis of Programmable Main-chain Liquid-crystalline Elastomers Using a Two-stage Thiol-acrylate Reaction
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Shape Memory Polymers for Active Cell Culture
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Shape Memory Polymers for Active Cell Culture

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科学领域:

  • 聚合物化学 聚合物化学
  • 材料科学 材料科学 材料科学
  • 超分子化学 超分子化学

背景情况:

  • 机械互锁结构 (MIS) 在集成到聚合物中时提供了独特的功能.
  • 基于Dibenzo-24-crown-8的[c2]daisy链单元代表了一个具有潜在应用的MIS的特定类别.

研究的目的:

  • 在聚合物骨干中共聚地嵌入[c2]丽链单元.
  • 调查产生的材料的形状记忆特性和MIS的作用.
  • 探索超分子相互作用对材料性能的影响.

主要方法:

  • 一个聚合物网络的合成,其中包含 [c2] 百合链交叉链.
  • 分子结构和对照组的分析.
  • 评估热性能,机械强度和形状记忆行为.

主要成果:

  • 合成的聚合物表现出显著的形状记忆特性,由热刺激控制.
  • [c2]丽链交叉链对于形状记忆功能至关重要,并增加玻璃过渡温度.
  • 超分子宿主-客人相互作用提供机械强度,网络稳定性和优异的形状恢复与耐疲劳性.

结论:

  • 在聚合物骨干中集成[c2]丽链单元,可以创建先进的形状记忆材料.
  • 机械互锁拓是增强热和机械性能的关键.
  • 这种方法为开发下一代形状记忆聚合物提供了一个多功能平台.