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Polymer Classification: Stereospecificity01:26

Polymer Classification: Stereospecificity

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Polymerization generates chiral centers along the entire backbone of a polymer chain. Accordingly, the stereochemistry of the substituent group has a significant effect on polymer properties. Polymers formed from monosubstituted alkene monomers feature chiral carbons at every alternate position in the polymer backbone. Relative to the predominant orientation of substituents at the adjacent chiral carbons, the polymer can exist in three different configurations: isotactic, syndiotactic, and...
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Molecular Weight of Step-Growth Polymers01:08

Molecular Weight of Step-Growth Polymers

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Step growth polymerization involves bi or multifunctional monomers. Bifunctional monomers react to form linear step growth polymers, whereas multifunctional monomers react to form non-linear or branched polymers.
As the step-growth polymerization involves step-wise condensation of monomers, the molecular weight also builds up eventually. Consequently, high molecular weight polymers are obtained at the late stages of the polymerization, where 99% of monomers have been consumed.
The extent of the...
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Step-Growth Polymerization: Overview01:03

Step-Growth Polymerization: Overview

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Step-growth or condensation polymerization is a stepwise reaction of bi or multifunctional monomers to form long-chain polymers. As all the monomers are reactive, most of the monomers are consumed at the early stages of the reaction to form small chains of reactive oligomers, which then combine to form long polymer chains in the late stages. Hence, the reaction has to proceed for a long time to achieve high molecular weight polymers.
Many natural and synthetic polymers are produced by...
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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,...
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Cationic Chain-Growth Polymerization: Mechanism00:57

Cationic Chain-Growth Polymerization: Mechanism

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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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Types of Step-Growth Polymers: Polyesters01:20

Types of Step-Growth Polymers: Polyesters

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The introduction of polyesters has brought major development to the textile industry. The wrinkle-free behavior of polyester blends has eliminated the need for starching and ironing clothes.
Polyesters are commonly prepared from terephthalic acid and ethylene glycol; the crude product is known as poly(ethylene terephthalate) or PET. However, polyesters are synthesized industrially by transesterification of dimethyl terephthalate with ethylene glycol at 150 °C. The two reactants and the...
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Updated: Sep 22, 2025

Anionic Polymerization of an Amphiphilic Copolymer for Preparation of Block Copolymer Micelles Stabilized by &#960;-&#960; Stacking Interactions
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Oriented Gamma Phase in Isotactic Polypropylene Homopolymer.

Tim B van Erp1, Luigi Balzano2, Gerrit W M Peters1

  • 1Department of Mechanical Engineering, Materials Technology Institute, Eindhoven University of Technology, P.O.Box 513, 5600 MB, Eindhoven, The Netherlands.

ACS Macro Letters
|May 24, 2022
PubMed
Summary
This summary is machine-generated.

New processing conditions enable high yields of the polypropylene γ-phase in Ziegler-Natta isotactic polypropylene (ZN-iPPs). Moderate pressure and shear flow create oriented structures with significant γ-phase content.

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Area of Science:

  • Polymer Science
  • Materials Science
  • Crystallography

Background:

  • The γ-phase in isotactic polypropylene (iPP) is known but difficult to induce.
  • Conventional methods require high pressures (≥2000 bar) or specific catalysts like metallocene (M) iPPs.

Purpose of the Study:

  • To investigate inducing high γ-phase content in ZN-iPPs under novel processing conditions.
  • To characterize the resulting morphology and phase structure.

Main Methods:

  • Crystallization of ZN-iPPs under moderate pressure (≥900 bar) combined with strong shear flow.
  • Morphological analysis of the resulting oriented specimens.

Main Results:

  • Achieved high contents of the γ-phase in ZN-iPPs.
  • Developed oriented morphology characterized as a shish-kebab structure.
  • Observed γ-lamellae templated on α-lamellae and shish backbone.

Conclusions:

  • Moderate pressure and shear flow are effective for inducing γ-phase in ZN-iPPs.
  • This method offers an alternative to high-pressure or specialized catalyst systems.
  • The shish-kebab morphology facilitates dense γ-lamellae formation.