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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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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...
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Recently, the development of olefin metathesis polymerization advanced the field of polymer synthesis. Simply put, the reorganization of substituents on their double bonds between two olefins in the presence of a catalyst is known as the olefin metathesis reaction. The use of metathesis reaction for polymer synthesis is called olefin metathesis polymerization.
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Heterogeneous catalysis involves a catalyst in a different phase from the reactants. It is a process where the catalyst and the reactants are in distinct phases, typically solid and gas or liquid.Most heterogeneous catalysts are metals, metal oxides, or acids. The list includes transition metals like iron (Fe), cobalt (Co), nickel (Ni), palladium (Pd), platinum (Pt), chromium (Cr), manganese (Mn), tungsten (W), silver (Ag), and copper (Cu). These metals possess partially vacant d orbitals that...
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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,...
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导电聚合物基催化剂

Qinqin Zhou1, Gaoquan Shi1

  • 1Department of Chemistry, Tsinghua University , Beijing 100084, People's Republic of China.

Journal of the American Chemical Society
|February 11, 2016
PubMed
概括
此摘要是机器生成的。

导电聚合物 (CP) 由于其导电性和可调性特性,为能源,传感器和环境应用提供了高效的催化剂. 本综述涵盖了它们的合成,应用和催化剂开发的未来挑战.

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科学领域:

  • 材料科学
  • 电化学
  • 催化剂

背景情况:

  • 导电聚合物 (CP) 是具有显著的催化活性,高导电性和独特的电化学/光学性能的多功能材料.
  • 通过化学或电化学方法进行经济高效的大规模合成,使它们具有各种应用的吸引力.
  • 在能源系统,传感器和环境保护中广泛使用,因为它们具有催化能力.

研究的目的:

  • 审查基于聚合物的导电催化剂的合成和应用的最新进展.
  • 讨论固有的和复合的CP催化剂,以及CP衍生的异质原子合碳催化剂.
  • 引入催化机制并应对实际CP催化剂开发的挑战.

主要方法:

  • 对导电聚合物催化剂的最新研究进行文献综述.
  • 对基于CP的固有和复合催化剂的合成策略的分析.
  • 检查CP衍生异原子化碳催化剂及其制备.

主要成果:

  • 对于各种应用,CP具有有前途的催化作用.
  • 固有的和复合的CP催化剂,以及CP衍生的碳材料,都显示出显著的潜力.
  • 了解催化机制对于优化性能至关重要.

结论:

  • 导电聚合物代表了先进催化剂开发的有希望的材料类别.
  • 需要进一步的研究来克服挑战,并充分发挥基于CP的催化剂的实际潜力.
  • 这一视角突出了未来CP催化剂设计和应用的关键领域.