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Self-Assembled 3D Graphene Monolith from Solution.

Wei Lv1, Chen Zhang2,3, Zhengjie Li2,3

  • 1†Shenzhen Key Laboratory for Graphene-based Materials, Graduate School at Shenzhen, Tsinghua University, Shenzhen 518055, China.

The Journal of Physical Chemistry Letters
|August 12, 2015
PubMed
Summary
This summary is machine-generated.

Three-dimensional graphene-assembled monoliths (GAs) offer high surface utilization for practical graphene applications. Understanding their assembly and structure control is key to unlocking their potential, especially in energy storage.

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Carbon Materials

Background:

  • Three-dimensional graphene-assembled monoliths (GAs) show promise for graphene applications due to high surface utilization.
  • Current understanding of 3D GA assembly and structure control is limited.
  • Liquid-phase self-assembly is a key method for creating these structures.

Purpose of the Study:

  • To demonstrate the assembly process of 3D graphene-assembled monoliths.
  • To discuss critical factors influencing the structure control of 3D GAs.
  • To highlight potential applications of 3D GAs.

Main Methods:

  • Phase separation during assembly.
  • Utilizing liquid phase as spacers to prevent graphene layer overlap.
  • Interlinked pore system formation.

Main Results:

  • Assembly initiates with phase separation, forming a 3D networked structure.
  • Liquid phase spacers are crucial for creating interlinked pore systems.
  • Well-tailored graphene sheets and assembly media are prerequisites for controlled assembly and microstructure.

Conclusions:

  • Controlled assembly of 3D GAs relies on specific graphene properties and assembly media.
  • 3D GAs exhibit significant advantages for energy storage applications, offering high rate and volumetric energy density.