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Updated: Jun 3, 2026

A Standard and Reliable Method to Fabricate Two-Dimensional Nanoelectronics
07:12

A Standard and Reliable Method to Fabricate Two-Dimensional Nanoelectronics

Published on: August 28, 2018

From nanoelectronics to nano-spintronics.

Kang L Wang1, Igor Ovchinnikov, Faxian Xiu

  • 1Device Research Laboratory (DRL), Marco Focus Center on Functional Engineered Nano Architectonics-FENA, Western Institute of Nanoelectronics-WIN, California NanoSystems Institute-CNSI, University of California, Los Angeles, CA 90095-1594, USA.

Journal of Nanoscience and Nanotechnology
|March 31, 2011
PubMed
Summary
This summary is machine-generated.

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Spintronics, using magnetic moment as a state variable, offers a promising alternative to conventional electronics by reducing variability and enabling nonvolatile logic for significant power savings.

Area of Science:

  • Condensed matter physics
  • Materials science
  • Nanotechnology

Background:

  • Conventional electronics face limitations in power dissipation and variability due to independent carrier behavior.
  • Continued scaling of electronic devices exacerbates these challenges, hindering further advancements.

Purpose of the Study:

  • To explore spintronics as a novel information processing paradigm using magnetic moment as a state variable.
  • To compare spintronics with conventional electronics regarding variability and fluctuations.
  • To discuss electric-field control methods for spintronic devices.

Main Methods:

  • Comparative analysis of electronics and spintronics concerning variability, quantum, and thermal fluctuations.
  • Investigation of nanomagnetics for reduced variability and nonvolatile logic.

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Last Updated: Jun 3, 2026

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  • Exploration of electric-field control of ferromagnetism in dilute magnetic semiconductors (DMS) and metallic materials.
  • Main Results:

    • Spintronics, particularly nanomagnetics, demonstrates significantly reduced variability compared to conventional electronics.
    • Nanomagnets enable nonvolatile logic, offering substantial power savings during system standby.
    • Electric-field control offers potential solutions to power dissipation issues in magnetic moment devices.

    Conclusions:

    • Spintronics presents a viable room-temperature information processing paradigm with advantages in scalability and reduced variability.
    • Electric-field control of ferromagnetism in DMS and metallic materials opens new avenues for efficient spintronic devices, including spin wave devices.