Angze Li scite author profile

Nanoscale laser arrays are attractive for their potential applications in highly integrated nanodevices, which are always obtained by nanowire arrays with complicated fabrication techniques. Here, a quite different nanolaser array is successfully realized based on a highly ordered core–shell CdS branched nanostructure with implanted Sn nanoparticles in junctions that split the individual multichannel nanostructures to various microcavities with effective light confinement and oscillation, thus to achieve a multipoint nanolaser array. Under the excitation of an ultraviolet laser, the strong band‐edge emission can be well reflected between Sn nanoparticles at junctions and effectively scattered into branch segments due to Sn nanoparticles existence in junctions, furthermore oscillating in various microcavities along trunks or branches to form multipoint lasing from Fabry‐Pérot (F‐P) mode with a quality factor up to 990 and the low threshold at around 3.78 MW cm−2. The corresponding fluorescent microscope images further demonstrate the formation of multipoint F‐P lasing at various segments. The theoretical simulation indicates that implanted Sn nanoparticles work as hot point to enhance the confinement of light around the Sn centers. The existence of surface plasmon from the Sn metal particles is further confirmed by the polarization dependent photoluminescence measurement. The results provide a new way to realize nanolaser arrays.

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Three-dimensional topographic and multi-elemental mapping by unilateral-shift-subtracting confocal controlled LIBS microscopy

Huang

Mao

et al. 2022

Spectrochimica Acta Part B: Atomic Spectroscopy

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High enhancement factor in low-power unipolar discharge arc assisted laser induced plasma spectroscopy

Wang

et al. 2020

Spectrochimica Acta Part B: Atomic Spectroscopy

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Angze Li

Lithium ion detection in liquid with low detection limit by laser-induced breakdown spectroscopy

The high-accuracy prediction of carbon content in semi-coke by laser-induced breakdown spectroscopy

Multipoint Nanolaser Array in an Individual Core–Shell CdS Branched Nanostructure

Three-dimensional topographic and multi-elemental mapping by unilateral-shift-subtracting confocal controlled LIBS microscopy

High enhancement factor in low-power unipolar discharge arc assisted laser induced plasma spectroscopy

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