Main > HPArticle > Ultrafast direct laser writing of 2D materials for multifunctional photonics devices
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  • Manuscript Accepted: Nov. 1, 2019

    Online Published: Nov. 2, 2019

Chinese Optics Letters, 2020, Vol. 18, Issue 2, pp.

Ultrafast direct laser writing of 2D materials for multifunctional photonics devices

Yang Tieshan, Lin Han, Jia Baohua

Author Affiliations

  • Swinburne University of Technology
  • Swinburne University of Technology

Abstract

During the past few years, two-dimensional (2D) materials have attracted tremendous interest on fundamental properties and practical applications. Various methods have been developed to fabricate micro/nanostructures in 2D materials. Direct laser writing (DLW) with the merits of rich light-matter interaction mechanisms, unique three-dimensional processing capability, arbitrary-shape design flexibility and high fabrication accuracy up to tens of nanometers, has been widely applied in the fabrication of micro/nanostructures of 2D materials for functional devices. This timely review summarizes the laser interacts with 2D materials and the advances on diverse 2D materials functional photonics devices by DLW. The perspectives and challenges in designing and improving laser fabricated 2D material photonic devices are also discussed.

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