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Related Concept Videos

Characteristics and Nomenclature of Copolymers01:24

Characteristics and Nomenclature of Copolymers

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Copolymers are the products obtained from the polymerization of multiple monomer species. So, in a polymer chain itself, there can be multiple repeating units that come from different monomers. The process of synthesizing a polymer from different monomer species is called copolymerization. When two monomers are involved, the polymer is known as a bipolymer. Polymers with three and four monomers are termed terpolymers and quaterpolymers, respectively. Figure 1 depicts the copolymerization of...
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Related Experiment Video

Updated: Mar 18, 2026

Fabrication of Three-Dimensional Graphene-Based Polyhedrons via Origami-Like Self-Folding
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Fabrication of Three-Dimensional Graphene-Based Polyhedrons via Origami-Like Self-Folding

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Functional Three-Dimensional Graphene/Polymer Composites.

Meng Wang1,2, Xidong Duan3, Yuxi Xu1

  • 1State Key Laboratory of Molecular Engineering of Polymers, Department of Macromolecular Science, Fudan University , Shanghai 200433, China.

ACS Nano
|July 13, 2016
PubMed
Summary
This summary is machine-generated.

Three-dimensional porous graphene/polymer composites (3DGPCs) offer tunable properties for advanced applications. This review highlights their synthesis, properties, and potential in energy, environmental, and sensing technologies.

Keywords:
compositesenergyenvironmentgraphenepolymersensorthree-dimensional

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Polymer Chemistry

Background:

  • Three-dimensional porous graphene/polymer composites (3DGPCs) are gaining significant attention.
  • Their development is driven by diverse fundamental studies and technological applications.
  • Graphene's unique properties combined with polymers create advanced composite materials.

Purpose of the Study:

  • To review recent advancements in 3DGPCs.
  • To discuss synthetic strategies for creating these composites.
  • To explore their potential applications in various fields.

Main Methods:

  • Review of recent scientific literature on 3DGPCs.
  • Analysis of synthetic routes and material design.
  • Examination of structure-property relationships.

Main Results:

  • 3DGPCs exhibit unique structural, electrical, and mechanical properties.
  • Properties can be tuned by controlling porosity and graphene-polymer interactions.
  • Diverse applications are emerging in environmental protection, energy storage, sensors, and conducting composites.

Conclusions:

  • 3DGPCs represent a rapidly developing area in materials science.
  • Precise control over hierarchical porosity and synergistic interactions is key.
  • Future opportunities lie in overcoming current challenges and expanding applications.