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Related Experiment Video

Updated: Dec 12, 2025

Fabrication of Three-Dimensional Graphene-Based Polyhedrons via Origami-Like Self-Folding
14:52

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

Published on: September 23, 2018

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From 2D Graphene Nanosheets to 3D Graphene-based Macrostructures.

Rabita Mohd Firdaus1,2, Nawal Berrada2, Alexandre Desforges2

  • 1School of Chemical Engineering, Engineering Campus Universiti Sains, Malaysia, 14300, Nibong Tebal, Seberang, Perai Selatan, P., Pinang, Malaysia.

Chemistry, an Asian Journal
|August 12, 2020
PubMed
Summary
This summary is machine-generated.

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Journal of colloid and interface science·2024

This review explores 3D graphene-based macrostructures (GBMs), highlighting their preparation and potential. Controlling the self-assembly chemistry is key to unlocking breakthroughs in advanced material applications.

Area of Science:

  • Materials Science
  • Nanotechnology
  • Chemistry

Background:

  • 2D graphene nanosheets offer high stability, surface area, and tunable porosity for applications like CO2 adsorption, water treatment, batteries, sensors, and catalysis.
  • 3D graphene-based macrostructures (GBMs) are emerging materials with exceptional functionalities.
  • Recent advancements have enabled the synthesis of 3D GBMs through various self-assembly methods.

Purpose of the Study:

  • To review and analyze the chemical routes for preparing both 2D graphene and interconnected 3D GBMs.
  • To discuss the importance of accessible surface area in 3D GBMs for interface exchanges.
  • To identify key areas for future research breakthroughs in 3D GBM development.

Main Methods:

  • Analysis of direct and non-direct self-assembly methods for 3D GBM synthesis.
Keywords:
3D macrostructuresaerogelgrapheneporosityself-assembly

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  • Examination of the underlying chemistry in 2D graphene and 3D GBM systems.
  • Review of literature on the preparation and application of graphene-based materials.
  • Main Results:

    • Detailed description of preparation routes for 2D graphene and 3D GBMs.
    • Analysis of the chemical principles governing graphene self-assembly.
    • Emphasis on the significance of surface accessibility and interface control in 3D GBMs.

    Conclusions:

    • Control over the nanometer-scale chemical mechanisms of self-assembly is crucial for advancing 3D GBM technology.
    • Improving accessible surface area in 3D GBMs is vital for enhanced performance in various applications.
    • Further research into self-assembly chemistry promises significant breakthroughs for 3D GBMs.