Nanophotonics (Jul 2021)

Tunable nonlinear optical responses of few-layer graphene through lithium intercalation

  • Zhang Chenxi,
  • Zeng Ganying,
  • Zhang Renyan,
  • Tang Yuxiang,
  • Liu Qirui,
  • Jiang Tian

DOI
https://doi.org/10.1515/nanoph-2021-0173
Journal volume & issue
Vol. 10, no. 10
pp. 2661 – 2669

Abstract

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Intercalation has been demonstrated to be a powerful tool for tuning the physical and chemical properties of two-dimensional (2D) materials, providing the highest possible doping level and an ideal system to study various electronic states. In this work, we demonstrate that the nonlinear absorption effect of few-layer graphene (about 6–8 layers) is changed from saturable absorption (SA) to reverse saturable absorption (RSA) after lithium intercalation. This is attributed to the increase of Fermi energy owing to the charge transfer from Li to graphene layers in intercalated compounds (LiC6). And the change of nonlinear absorption effect is revisable after deintercalation. In addition, the modulation depth of RSA in lithiated graphene is found to rise with the decrease of incident laser wavelength, different from that of pristine graphene. Besides, the dispersion relationships of degenerate and nondegenerate two-photon absorption are analyzed from the results of nonlinear absorption and transient dynamics of lithiated graphene, indicating the 1.91–2.21 eV upshift of the Fermi surface. Our findings of the intercalation-tunable nonlinear optical absorption effect pave the way for the construction of nonlinear optical devices based on 2D intercalation compounds.

Keywords