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A Standard and Reliable Method to Fabricate Two-Dimensional Nanoelectronics
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Two-dimensional flexible nanoelectronics.

Deji Akinwande1, Nicholas Petrone2, James Hone2

  • 1Microelectronics Research Center, Department of Electrical and Computer Engineering, The University of Texas at Austin, Austin, Texas 78712, USA.

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|December 18, 2014
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Graphene research

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Area of Science:

  • Materials Science
  • Condensed Matter Physics

Background:

  • Graphene's remarkable electronic, optical, mechanical, and thermal properties have made it attractive for thin-film transistors.
  • Graphene's zero bandgap has spurred interest in other 2D semiconductors with tunable bandgaps.

Purpose of the Study:

  • To review the advancements in graphene research over the past decade.
  • To highlight the potential of 2D materials for integrated flexible nanoelectronics.

Main Methods:

  • Literature review of graphene research and related 2D materials.
  • Analysis of the properties of graphene, dichalcogenides, buckled nanomaterials, and hexagonal boron nitride.

Main Results:

  • Graphene exhibits exceptional properties suitable for advanced electronic applications.
  • The development of 2D semiconductors and hexagonal boron nitride enables new possibilities for flexible electronics.

Conclusions:

  • The unique properties of 2D materials, beyond those of conventional thin films, are crucial for developing ubiquitous flexible systems.
  • Integrated flexible nanoelectronics represent a promising future direction for advanced electronic devices.