Abstract
Abstract Pump fluence and probe wavelength-dependent ultrafast carrier dynamics and optical nonlinear absorption in black phosphorus nanosheets are investigated by transient absorption spectroscopy and open-aperture Z scan techniques. The decay time becomes longer with larger wavelengths under pump wavelengths of both 400 nm and 800 nm excitation. For 800 nm excitation, pump fluence-dependent lifetime shows complex behaviors, which might be due to the competition between the linear absorption and two photon absorption. For 400 nm excitation, an additional decaying channel is observed at a larger pump fluence, which is explained by an effective subband structure. In open-aperture Z scan measurements, strong saturation absorption is observed in the visible region over a broad band from 450 nm to 700 nm. The saturation intensity shows an increasing trend with increase in the wavelength. Also, the saturation intensities under different pulse widths and solvents are discussed in detail. Our results show that black phosphorus nanosheets have great potential in future ultrathin optoelectronic devices.
Highlights
Following the discovery of graphene, other two-dimensional (2D) materials have attracted great attention due to their unique optical properties and high specific surface areas [1], which are important for sensors [2], transistors [3], catalysis [4], photodetectors [5], and energy storage applications [6]
Pump fluence and probe wavelength-dependent ultrafast carrier dynamics and optical nonlinear absorption in black phosphorus nanosheets are investigated by transient absorption spectroscopy and open-aperture Z scan techniques
Our results show that black phosphorus nanosheets have great potential in future ultrathin optoelectronic devices
Summary
Following the discovery of graphene, other two-dimensional (2D) materials have attracted great attention due to their unique optical properties and high specific surface areas [1], which are important for sensors [2], transistors [3], catalysis [4], photodetectors [5], and energy storage applications [6]. W. Wu et al.: The pump fluence and wavelength-dependent ultrafast carrier dynamics pulsed lasers. The carrier dynamics in BP nanosheets dispersed in organic solvents have been reported extensively [24,25,26], especially in the nearinfrared spectral region. Broadband nonlinear absorption in the near-infrared spectral region was observed for single/few-layer BP nanostructures such as nanosheets and nanoparticles, which can be used as saturable absorbers for Q-switched mode-locking lasers [27, 28]. There are only few reports about the carrier dynamics and nonlinear absorption of BP nanosheets in aqueous solution at the visible range. Ultrafast carrier dynamics and nonlinear absorption of BP nanosheets in aqueous solution across the visible spectral region were investigated. It is the first time that the nonlinear absorption of BP nanosheets has been measured in the visible region by nanosecond Z scan measurement
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