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Polymers02:34

Polymers

40.9K
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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Polymers02:34

Polymers

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Members Made of Elastoplastic Material01:19

Members Made of Elastoplastic Material

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The behavior of elastoplastic materials under bending stresses, particularly in structural members with rectangular cross-sections, is crucial for predicting material responses and understanding failure modes. Initially, when a bending moment is applied, the stress distribution across the section follows Hooke's Law and is linear and elastic. This distribution means the stress increases from the neutral axis to the maximum at the outer fibers, up to the elastic limit.
As the bending moment...
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Genetic Material01:20

Genetic Material

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Within the human body, a complex and detailed system of trillions of cells works in unison to sustain life. Each cell houses a nucleus, which contains 46 chromosomes divided into 23 pairs. Chromosomes are highly coiled structures made of the genetic material DNA. These chromosomes are essential carriers of genetic information, with half inherited from the mother through her egg and the other half from the father's sperm, combining to create the unique genetic makeup of an individual.
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Bending of Members Made of Several Materials01:11

Bending of Members Made of Several Materials

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In analyzing a structural member composed of two different materials with identical cross-sectional areas, it is crucial to understand how their distinct elastic properties affect the member's response under load. The analysis involves assessing stress and strain distributions using the transformed section concept, which accounts for variations in material properties.
Hooke's Law determines stress in each material, stating that stress is proportional to strain but varies due to each material's...
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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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Procedure for the Transfer of Polymer Films Onto Porous Substrates with Minimized Defects
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Porous Polymers as Multifunctional Material Platforms toward Task-Specific Applications.

Jinlun Wu1, Fei Xu2, Shimei Li1

  • 1Materials Science Institute, PCFM Lab and GDHPRC Lab, School of Chemistry, Sun Yat-sen University, Guangzhou, 510275, P. R. China.

Advanced Materials (Deerfield Beach, Fla.)
|October 23, 2018
PubMed
Summary
This summary is machine-generated.

Advanced porous polymers are crucial for science and technology, offering tailored structures for applications in gas adsorption, water treatment, and energy storage. This review highlights their structure-property relationships and future research directions.

Keywords:
pore structure regulationporous polymerspostsynthetic modificationpresynthetic modificationtask-specific applications

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Area of Science:

  • Materials Science
  • Polymer Chemistry
  • Nanotechnology

Background:

  • Porous polymers are all-organic materials with tunable pore structures and chemical compositions.
  • They are increasingly researched for diverse applications due to their unique properties.

Purpose of the Study:

  • To present recent milestones in the applications of porous polymers.
  • To emphasize the structure-property relationships governing their functionalities.
  • To provide a perspective on future research directions.

Main Methods:

  • Literature review of recent breakthroughs in porous polymer applications.
  • Analysis of structural requirements and parameters influencing material properties.
  • Discussion of structure-property relationships for various applications.

Main Results:

  • Porous polymers show significant advancements in gas adsorption, water treatment, separation, catalysis, and energy storage.
  • Key applications include precursors for porous carbons, sensing, and biomedicine.
  • Structure-property relationships are critical for optimizing performance in each application.

Conclusions:

  • Porous polymers are versatile materials with expanding applications in science and technology.
  • Understanding structure-property relationships is key to unlocking their full potential.
  • Further research is needed to address challenges and explore new frontiers.