Surface-State Assisted Carrier Recombination and Optical Nonlinearities in Bulk to 2D Nonlayered PtS

Jiawei Huang; Ningning Dong; Niall McEvoy; Lei Wang; Cormac Coileáin; Hongqiang Wang; Conor P. Cullen; Chenduan Chen; Saifeng Zhang; Long Zhang; Jun Wang

doi:10.1021/acsnano.9b06782

Surface-State Assisted Carrier Recombination and Optical Nonlinearities in Bulk to 2D Nonlayered PtS

Jiawei Huang, Ningning Dong, Niall McEvoy, Lei Wang, Cormac Coileáin, Hongqiang Wang, Conor P. Cullen, Chenduan Chen, Saifeng Zhang, Long Zhang, Jun Wang

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

48 Scopus citations

Abstract

Cooperite, or platinum sulfide (PtS), is a rare mineral that generally exists as microscale, irregularly shaped crystallites. The presence of impurities, in both naturally occurring and synthesized samples, has hindered the study of its optical properties in the past. In this work, we prepare large-scale, uniform PtS films in bulk to two-dimensional form through the thermally assisted conversion method. An abnormal trend is observed in linear spectral studies whereby the optical bandgap narrows as the film thickness decreases. A model based on the continuous distribution of carriers in real space, which can be regarded as a quantum well normal to the plane, is used to describe the thickness-dependent carrier recombination phenomenon. In the nonlinear optical measurements, PtS exhibits ultrafast saturable absorption and self-defocusing properties in the visible region, which are dominated by the resonant electronic nonlinearities.

Original language	English
Pages (from-to)	13390-13402
Number of pages	13
Journal	ACS Nano
Volume	13
Issue number	11
DOIs	https://doi.org/10.1021/acsnano.9b06782
State	Published - 26 Nov 2019
Externally published	Yes

Keywords

carrier dynamics
optical nonlinearities
platinum sulfide
surface states
two-dimensional nonlayered materials

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10.1021/acsnano.9b06782

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title = "Surface-State Assisted Carrier Recombination and Optical Nonlinearities in Bulk to 2D Nonlayered PtS",

abstract = "Cooperite, or platinum sulfide (PtS), is a rare mineral that generally exists as microscale, irregularly shaped crystallites. The presence of impurities, in both naturally occurring and synthesized samples, has hindered the study of its optical properties in the past. In this work, we prepare large-scale, uniform PtS films in bulk to two-dimensional form through the thermally assisted conversion method. An abnormal trend is observed in linear spectral studies whereby the optical bandgap narrows as the film thickness decreases. A model based on the continuous distribution of carriers in real space, which can be regarded as a quantum well normal to the plane, is used to describe the thickness-dependent carrier recombination phenomenon. In the nonlinear optical measurements, PtS exhibits ultrafast saturable absorption and self-defocusing properties in the visible region, which are dominated by the resonant electronic nonlinearities.",

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author = "Jiawei Huang and Ningning Dong and Niall McEvoy and Lei Wang and Cormac Coile{\'a}in and Hongqiang Wang and Cullen, {Conor P.} and Chenduan Chen and Saifeng Zhang and Long Zhang and Jun Wang",

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doi = "10.1021/acsnano.9b06782",

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T1 - Surface-State Assisted Carrier Recombination and Optical Nonlinearities in Bulk to 2D Nonlayered PtS

AU - Huang, Jiawei

AU - Dong, Ningning

AU - McEvoy, Niall

AU - Wang, Lei

AU - Coileáin, Cormac

AU - Wang, Hongqiang

AU - Cullen, Conor P.

AU - Chen, Chenduan

AU - Zhang, Saifeng

AU - Zhang, Long

AU - Wang, Jun

PY - 2019/11/26

Y1 - 2019/11/26

N2 - Cooperite, or platinum sulfide (PtS), is a rare mineral that generally exists as microscale, irregularly shaped crystallites. The presence of impurities, in both naturally occurring and synthesized samples, has hindered the study of its optical properties in the past. In this work, we prepare large-scale, uniform PtS films in bulk to two-dimensional form through the thermally assisted conversion method. An abnormal trend is observed in linear spectral studies whereby the optical bandgap narrows as the film thickness decreases. A model based on the continuous distribution of carriers in real space, which can be regarded as a quantum well normal to the plane, is used to describe the thickness-dependent carrier recombination phenomenon. In the nonlinear optical measurements, PtS exhibits ultrafast saturable absorption and self-defocusing properties in the visible region, which are dominated by the resonant electronic nonlinearities.

AB - Cooperite, or platinum sulfide (PtS), is a rare mineral that generally exists as microscale, irregularly shaped crystallites. The presence of impurities, in both naturally occurring and synthesized samples, has hindered the study of its optical properties in the past. In this work, we prepare large-scale, uniform PtS films in bulk to two-dimensional form through the thermally assisted conversion method. An abnormal trend is observed in linear spectral studies whereby the optical bandgap narrows as the film thickness decreases. A model based on the continuous distribution of carriers in real space, which can be regarded as a quantum well normal to the plane, is used to describe the thickness-dependent carrier recombination phenomenon. In the nonlinear optical measurements, PtS exhibits ultrafast saturable absorption and self-defocusing properties in the visible region, which are dominated by the resonant electronic nonlinearities.

KW - carrier dynamics

KW - optical nonlinearities

KW - platinum sulfide

KW - surface states

KW - two-dimensional nonlayered materials

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U2 - 10.1021/acsnano.9b06782

DO - 10.1021/acsnano.9b06782

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SN - 1936-0851

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SP - 13390

EP - 13402

JO - ACS Nano

JF - ACS Nano

IS - 11

ER -

Surface-State Assisted Carrier Recombination and Optical Nonlinearities in Bulk to 2D Nonlayered PtS

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Keywords

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