Room-temperature near-infrared whispering-gallery-mode lasing from two-dimensional CdSe microplates

Near-infrared (NIR) micro/nanolasers are attractive for their potential in biological and nonlinear optics applications. Despite the great advances, challenge remains due to low quantum efficiency and small exciton binding energy. Herein, we demonstrate a planar room-temperature NIR microlaser based...

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Bibliographic Details
Published in:Journal of materials chemistry. C, Materials for optical and electronic devices Materials for optical and electronic devices, 2021-08, Vol.9 (29), p.9222-9228
Main Authors: Kong, Lei, Mi, Yang, Liang, Weizheng, Luo, Sheng-Nian
Format: Article
Language:English
Subjects:
Excitons
Lasing
Microlasers
Near infrared radiation
Nonlinear optics
Photoluminescence
Quantum efficiency
Room temperature
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Summary:Near-infrared (NIR) micro/nanolasers are attractive for their potential in biological and nonlinear optics applications. Despite the great advances, challenge remains due to low quantum efficiency and small exciton binding energy. Herein, we demonstrate a planar room-temperature NIR microlaser based on two-dimensional CdSe microplates (MPs). Whispering-gallery-mode lasing is achieved from individual CdSe MPs with a typical threshold (∼38.4 μJ cm −2 ) and spectral coherence (∼0.95 nm). Time-resolved photoluminescence measurements suggest that the lasing originates from the electron-hole plasma recombination. The better lasing performance and photostability of hexagonal MPs over their triangular counterparts are attributed to stronger light confinement, as verified by theoretical simulations. Moreover, the size-dependent lasing threshold study reveals that the threshold of hexagonal MPs scales inversely with the square of cavity size. These CdSe-based microlasers can be potentially used for on-chip integration. Room-temperature WGM lasing is achieved in regular polygonal CdSe microplates with a typical threshold of ~38.4 μJ cm −2 and spectra coherence of ~0.95 nm. Due to stronger light confinement, the hexagonal microplates show better lasing performance.
ISSN:2050-7526
2050-7534
DOI:10.1039/d1tc01850g