Exciton-Like and Mid-Gap Absorption Dynamics of PtS in Resonant and Transparent Regions

Jiawei Huang; Ningning Dong; Niall McEvoy; Lei Wang; Hongqiang Wang; Jun Wang

doi:10.1002/lpor.202100654

Exciton-Like and Mid-Gap Absorption Dynamics of PtS in Resonant and Transparent Regions

Jiawei Huang, Ningning Dong, Niall McEvoy, Lei Wang, Hongqiang Wang, Jun Wang

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Two essential ranges of energy within and out of bandgap determine the global optical property of a general semiconductor. Here, exciton-like inter-sub-band resonance absorption and optical bleaching of platinum sulfide (PtS) in the resonant region are found and investigated through the linear optical spectra and ultrafast transient absorption spectra. Besides, free-carrier absorption and defect-assisted Auger recombination in the transparent region are identified via the intensity- and temperature-dependent pump–probe experiments. Good experimental and theorical agreements are obtained using the mid-gap carrier-capture model considering the complex optical conductivity based on the rate equations. This work facilitates further understanding of the ultrafast photoinduced carrier behavior in PtS, which provides the possibility for future applications in photoelectric devices.

Original language	English
Article number	2100654
Journal	Laser and Photonics Reviews
Volume	16
Issue number	6
DOIs	https://doi.org/10.1002/lpor.202100654
State	Published - Jun 2022
Externally published	Yes

Keywords

Auger scattering
optical conductivity
platinum sulfide
ultrafast carrier dynamics

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10.1002/lpor.202100654

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title = "Exciton-Like and Mid-Gap Absorption Dynamics of PtS in Resonant and Transparent Regions",

abstract = "Two essential ranges of energy within and out of bandgap determine the global optical property of a general semiconductor. Here, exciton-like inter-sub-band resonance absorption and optical bleaching of platinum sulfide (PtS) in the resonant region are found and investigated through the linear optical spectra and ultrafast transient absorption spectra. Besides, free-carrier absorption and defect-assisted Auger recombination in the transparent region are identified via the intensity- and temperature-dependent pump–probe experiments. Good experimental and theorical agreements are obtained using the mid-gap carrier-capture model considering the complex optical conductivity based on the rate equations. This work facilitates further understanding of the ultrafast photoinduced carrier behavior in PtS, which provides the possibility for future applications in photoelectric devices.",

keywords = "Auger scattering, optical conductivity, platinum sulfide, ultrafast carrier dynamics",

author = "Jiawei Huang and Ningning Dong and Niall McEvoy and Lei Wang and Hongqiang Wang and Jun Wang",

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T1 - Exciton-Like and Mid-Gap Absorption Dynamics of PtS in Resonant and Transparent Regions

AU - Huang, Jiawei

AU - Dong, Ningning

AU - McEvoy, Niall

AU - Wang, Lei

AU - Wang, Hongqiang

AU - Wang, Jun

PY - 2022/6

Y1 - 2022/6

N2 - Two essential ranges of energy within and out of bandgap determine the global optical property of a general semiconductor. Here, exciton-like inter-sub-band resonance absorption and optical bleaching of platinum sulfide (PtS) in the resonant region are found and investigated through the linear optical spectra and ultrafast transient absorption spectra. Besides, free-carrier absorption and defect-assisted Auger recombination in the transparent region are identified via the intensity- and temperature-dependent pump–probe experiments. Good experimental and theorical agreements are obtained using the mid-gap carrier-capture model considering the complex optical conductivity based on the rate equations. This work facilitates further understanding of the ultrafast photoinduced carrier behavior in PtS, which provides the possibility for future applications in photoelectric devices.

AB - Two essential ranges of energy within and out of bandgap determine the global optical property of a general semiconductor. Here, exciton-like inter-sub-band resonance absorption and optical bleaching of platinum sulfide (PtS) in the resonant region are found and investigated through the linear optical spectra and ultrafast transient absorption spectra. Besides, free-carrier absorption and defect-assisted Auger recombination in the transparent region are identified via the intensity- and temperature-dependent pump–probe experiments. Good experimental and theorical agreements are obtained using the mid-gap carrier-capture model considering the complex optical conductivity based on the rate equations. This work facilitates further understanding of the ultrafast photoinduced carrier behavior in PtS, which provides the possibility for future applications in photoelectric devices.

KW - Auger scattering

KW - optical conductivity

KW - platinum sulfide

KW - ultrafast carrier dynamics

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M3 - 文章

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JO - Laser and Photonics Reviews

JF - Laser and Photonics Reviews

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ER -

Exciton-Like and Mid-Gap Absorption Dynamics of PtS in Resonant and Transparent Regions

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