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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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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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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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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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Characteristics and Nomenclature of Homopolymers01:00

Characteristics and Nomenclature of Homopolymers

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Polymers that are made up of identical monomer units are called homopolymers. Only one repeating unit is involved in the construction of the homopolymer structure. For example, as depicted in Figure 1, polypropylene is a homopolymer constituted of propylene monomers. Here, the only repeating unit in the polymer chain is propylene.
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Photoluminescence: Applications01:14

Photoluminescence: Applications

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Photoluminescence offers a wide range of applications due to its inherent sensitivity and selectivity. This technique allows for both direct and indirect analyses of the analyte. Direct quantitative analysis is possible when the analyte exhibits a favorable quantum yield for fluorescence or phosphorescence. However, an indirect analysis may be feasible if the analyte is not fluorescent or phosphorescent, or if the quantum yield is unfavorable. Indirect methods include reacting the analyte with...
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Related Experiment Video

Updated: Sep 8, 2025

Synthesis of Soft Polysiloxane-urea Elastomers for Intraocular Lens Application
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Synthesis of Soft Polysiloxane-urea Elastomers for Intraocular Lens Application

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Light-responsive polyurethanes: classification of light-responsive moieties, light-responsive reactions, and their

Ki Yan Lam1, Choy Sin Lee2, Mallikarjuna Rao Pichika2,3

  • 1School of Postgraduate, International Medical University No. 126, Jalan Jalil Perkasa 19, Bukit Jalil 57000 Kuala Lumpur Malaysia choysin_lee@imu.edu.my.

RSC Advances
|June 13, 2022
PubMed
Summary

This review explores light-responsive polyurethane (PU) smart materials. Researchers are enhancing PU polymers with light-sensitive groups for diverse applications by controlling their properties with light.

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Area of Science:

  • Materials Science
  • Polymer Chemistry
  • Smart Materials

Background:

  • Smart materials can alter properties in response to environmental stimuli.
  • Polyurethane (PU) is a versatile polymer with broad industrial applications.
  • Light-responsive PU offers tunable physical, mechanical, and chemical characteristics.

Purpose of the Study:

  • To review light-sensitive moieties for creating light-responsive PU.
  • To discuss synthesis methods and response mechanisms of these smart PU materials.
  • To analyze the advantages, limitations, and challenges in developing light-responsive PU.

Main Methods:

  • Literature review of existing research on light-responsive PU.
  • Categorization of light-sensitive moieties (e.g., azobenzene, spiropyran, coumarin, o-nitrobenzyl).
  • Analysis of reversible and irreversible light-induced reactions in PU systems.

Main Results:

  • Incorporating moieties like azobenzene, spiropyran, coumarin, and o-nitrobenzyl enables light responsiveness in PU.
  • Different moieties induce reversible or irreversible changes in PU properties upon light exposure.
  • Dual- or multi-responsive PU systems can be developed for complex applications.

Conclusions:

  • Light-responsive PU presents significant potential across various industries due to its tunable properties.
  • Further research is needed to overcome limitations and address challenges in developing advanced light-responsive PU materials.
  • This review provides a comprehensive overview for future development in light-responsive polymer systems.