2D Transition Metal Carbides (MXenes) for Third Order Nonlinear Optics: Status and Prospects

Wang, Yiduo; He, Jun

doi:10.1002/lpor.202200733

Cited by 17 publications

(9 citation statements)

References 240 publications

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“…23 To date, more than 40 MXenes have been discovered and studied. As a novel 2D layered material, its unique electronic, chemical and optical properties make it potentially valuable for applications in biomedicine, 24 catalysis, 25,26 sensing, 27,28 energy storage, 29,30 nonlinear optics [31][32][33] and other fields. MXenes are obtained by etching layer A from the MAX phase, e.g.…”

Section: Introductionmentioning

confidence: 99%

2D Ta₄AlC₃ and Ta₄C₃ nanosheets with excellent ultraviolet optical limiting behavior for laser protection

Du,

Zhao,

Ren

et al. 2024

J. Mater. Chem. C

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Section: Introductionmentioning

confidence: 99%

2D Ta₄AlC₃ and Ta₄C₃ nanosheets with excellent ultraviolet optical limiting behavior for laser protection

Du,

Zhao,

Ren

et al. 2024

J. Mater. Chem. C

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“…In the past decade, low‐dimensional materials, such as CNTs, graphene, transition metal dichalcogenides (TMDCs), black phosphorus (BP), MXenes, and even organic nanomaterials have been widely employed as saturable absorption materials in laser mode‐locking due to their wide band response and ease of van der Waals integration. [ 13–25 ] It is worth noting that the pulse laser performances, including the damage threshold, long‐term stability, and mode‐lock start‐up threshold, are related to the coupling between the fiber optic medium and low‐dimensional materials, which is largely determined by the cleanliness of the interface. [ 14,26–28 ] However, traditional preparation and integration processes, such as solution‐based growth, drop cast, or polymer‐assistant transfer, inevitably introduce chemical residues or defects.…”

Section: Introductionmentioning

confidence: 99%

Low Threshold and Robust Ultrafast Pulses from Freestanding‐Growth 2D Quaternary BiCuSeO

Yu,

Li,

et al. 2023

Adv Funct Materials

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Saturable absorber is a key component in ultrafast pulsed laser systems, which are pivotal in ultrafast physics, high‐speed communication, etc. 2D materials appear to be superior candidates as saturable absorbers for compact pulsed fiber lasers in recent years due to their wide band response and ease of integration. However, the integration of mode‐locked devices inevitably involves contamination or polymer in the interface between the layered saturable absorber and the fiber, which contributes to a high start‐up threshold for the ultrafast pulsed lasers. This study develops an on‐fiber femtosecond laser with 2D narrow‐gap semiconducting BiCuSeO as a saturable absorber by a fully dry integration process thanks to the controllable growth of freestanding quaternary BiCuSeO nanoflakes. The corresponding thermodynamic growth mechanism is systemically revealed by electron microscopy and bind‐energy calculation. An electrostatic‐force‐assisted transfer method is developed to avoid damage or chemical contamination. The BiCuSeO‐based femtosecond laser shows decent output performance (pulse width, signal‐noise ratio and repetition rate are 395 fs, 61 dB, 17.1 MHz) with an ultra‐low threshold of 30 mW. The strategy of controllable growth of free‐standing 2D material facilitates a clean interface between the saturable absorber and fibers, which is favorable for high‐performance ultrafast photonic devices.

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“…To date, the mode-locked lasers are achieved by using various SAs, including but not limited to semiconductor saturable absorber mirrors (SESAMs), black phosphorus (BP), carbon nanotubes (CNTs), transition metal dichalcogenides (TMDs), topology insulators (TIs), MXenes and MAX-phases [21][22][23][24][25][26][27][28][29]. For instance, Wang et al [30] have demonstrated the generation of mode-locked laser and dynamics of soliton at 1.5 μm using a VSe 2 /GO-based saturable absorber.…”

Section: Introductionmentioning

confidence: 99%

Wavelength-tunable mode-locked laser using zinc phosphate as a saturable absorber at 1.9 μm

et al. 2023

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Metal phosphates have emerged as low-cost inorganic materials suitable for high-performance energy storage and conversion devices. The photoluminescence properties of metal phosphates are now being explored for their optoelectronic applications. Among them, zinc phosphate is the composition of metal zinc and phosphoric acid. In this work, we have demonstrated the synthesis of zinc phosphate by the solvothermal method and its potential as a saturable absorber (SA) to generate a tunable mode-locked laser at 1.9 µm. Zinc phosphate was coated over arc-shaped fiber and incorporated in a thulium-holmium doped fiber laser (THDFL) to achieve the mode-locking. Soliton mode-locked pulses were achieved at a center wavelength of 1893 nm with the pulse duration, repetition rate, and signal-to-noise ratio (SNR) of 1.12 ps, 12 MHz, and 68 dB, respectively. The center wavelength of the mode-locked laser was tunable from 1893 to 1898.4 nm, and the pulse duration ranged between 1.12 to 1.4 ps. To the authors' knowledge, this is the first demonstration of a wavelength-tunable mode-locked laser using zinc phosphate as a SA at 1.9 µm.

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2D Transition Metal Carbides (MXenes) for Third Order Nonlinear Optics: Status and Prospects

Cited by 17 publications

References 240 publications

2D Ta₄AlC₃ and Ta₄C₃ nanosheets with excellent ultraviolet optical limiting behavior for laser protection

2D Ta₄AlC₃ and Ta₄C₃ nanosheets with excellent ultraviolet optical limiting behavior for laser protection

Low Threshold and Robust Ultrafast Pulses from Freestanding‐Growth 2D Quaternary BiCuSeO

Wavelength-tunable mode-locked laser using zinc phosphate as a saturable absorber at 1.9 μm

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2D Transition Metal Carbides (MXenes) for Third Order Nonlinear Optics: Status and Prospects

Cited by 17 publications

References 240 publications

2D Ta4AlC3 and Ta4C3 nanosheets with excellent ultraviolet optical limiting behavior for laser protection

2D Ta4AlC3 and Ta4C3 nanosheets with excellent ultraviolet optical limiting behavior for laser protection

Low Threshold and Robust Ultrafast Pulses from Freestanding‐Growth 2D Quaternary BiCuSeO

Wavelength-tunable mode-locked laser using zinc phosphate as a saturable absorber at 1.9 μm

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2D Ta₄AlC₃ and Ta₄C₃ nanosheets with excellent ultraviolet optical limiting behavior for laser protection

2D Ta₄AlC₃ and Ta₄C₃ nanosheets with excellent ultraviolet optical limiting behavior for laser protection