High-Performance Phototransistors Based on MnPSe3and Its Hybrid Structures with Au Nanoparticles

Xu Han; Pengbo Song; Jie Xing; Zhong Chen; Danyang Li; Guangyuan Xu; Xiaojun Zhao; Fangyuan Ma; Dongke Rong; Youguo Shi; Md Rasidul Islam; Kong Liu; Yuan Huang

doi:10.1021/acsami.0c19530

High-Performance Phototransistors Based on MnPSe₃and Its Hybrid Structures with Au Nanoparticles

Xu Han, Pengbo Song, Jie Xing^*, Zhong Chen, Danyang Li, Guangyuan Xu, Xiaojun Zhao, Fangyuan Ma, Dongke Rong, Youguo Shi, Md Rasidul Islam, Kong Liu^*, Yuan Huang^*

^*Corresponding author for this work

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

29 Citations (Scopus)

Abstract

Layered metal thiophosphates with a general formula MPX3 (M is a group VIIB or VIII element and X is a chalcogen) have emerged as a novel member in a two-dimensional (2D) family with fascinating physical and chemical properties. Herein, the photoelectric performance of the few-layer MnPSe3 was studied for the first time. The multilayer MnPSe3 shows p-type conductivity and its field-effect transistor delivers an ultralow dark current of about 0.1 pA. The photoswitching ratio reaches μ103 at a wavelength of 375 nm, superior to that of other thiophosphates. A responsivity and detectivity of 392.78 mA/W and 2.19 × 109 Jones, respectively, have been demonstrated under irradiation of 375 nm laser with a power intensity of 0.1 mW/cm2. In particular, the photocurrent can be remarkably increased up to 30 times by integrating a layer of Au nanoparticle array at the bottom of the MnPSe3 layer. The metal-semiconductor interfacial electric field and the strain-induced flexoelectric polarization field caused by the underlying nanorugged Au nanoparticles are proposed to contribute together to the significant current improvement.

Original language	English
Pages (from-to)	2836-2844
Number of pages	9
Journal	ACS applied materials & interfaces
Volume	13
Issue number	2
DOIs	https://doi.org/10.1021/acsami.0c19530
Publication status	Published - 20 Jan 2021
Externally published	Yes

Keywords

2D material
MnPSe
flexoelectricity
p-type semiconductor
phototransistor

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10.1021/acsami.0c19530

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title = "High-Performance Phototransistors Based on MnPSe3and Its Hybrid Structures with Au Nanoparticles",

abstract = "Layered metal thiophosphates with a general formula MPX3 (M is a group VIIB or VIII element and X is a chalcogen) have emerged as a novel member in a two-dimensional (2D) family with fascinating physical and chemical properties. Herein, the photoelectric performance of the few-layer MnPSe3 was studied for the first time. The multilayer MnPSe3 shows p-type conductivity and its field-effect transistor delivers an ultralow dark current of about 0.1 pA. The photoswitching ratio reaches μ103 at a wavelength of 375 nm, superior to that of other thiophosphates. A responsivity and detectivity of 392.78 mA/W and 2.19 × 109 Jones, respectively, have been demonstrated under irradiation of 375 nm laser with a power intensity of 0.1 mW/cm2. In particular, the photocurrent can be remarkably increased up to 30 times by integrating a layer of Au nanoparticle array at the bottom of the MnPSe3 layer. The metal-semiconductor interfacial electric field and the strain-induced flexoelectric polarization field caused by the underlying nanorugged Au nanoparticles are proposed to contribute together to the significant current improvement.",

keywords = "2D material, MnPSe, flexoelectricity, p-type semiconductor, phototransistor",

author = "Xu Han and Pengbo Song and Jie Xing and Zhong Chen and Danyang Li and Guangyuan Xu and Xiaojun Zhao and Fangyuan Ma and Dongke Rong and Youguo Shi and Islam, {Md Rasidul} and Kong Liu and Yuan Huang",

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T1 - High-Performance Phototransistors Based on MnPSe3and Its Hybrid Structures with Au Nanoparticles

AU - Han, Xu

AU - Song, Pengbo

AU - Xing, Jie

AU - Chen, Zhong

AU - Li, Danyang

AU - Xu, Guangyuan

AU - Zhao, Xiaojun

AU - Ma, Fangyuan

AU - Rong, Dongke

AU - Shi, Youguo

AU - Islam, Md Rasidul

AU - Liu, Kong

AU - Huang, Yuan

PY - 2021/1/20

Y1 - 2021/1/20

N2 - Layered metal thiophosphates with a general formula MPX3 (M is a group VIIB or VIII element and X is a chalcogen) have emerged as a novel member in a two-dimensional (2D) family with fascinating physical and chemical properties. Herein, the photoelectric performance of the few-layer MnPSe3 was studied for the first time. The multilayer MnPSe3 shows p-type conductivity and its field-effect transistor delivers an ultralow dark current of about 0.1 pA. The photoswitching ratio reaches μ103 at a wavelength of 375 nm, superior to that of other thiophosphates. A responsivity and detectivity of 392.78 mA/W and 2.19 × 109 Jones, respectively, have been demonstrated under irradiation of 375 nm laser with a power intensity of 0.1 mW/cm2. In particular, the photocurrent can be remarkably increased up to 30 times by integrating a layer of Au nanoparticle array at the bottom of the MnPSe3 layer. The metal-semiconductor interfacial electric field and the strain-induced flexoelectric polarization field caused by the underlying nanorugged Au nanoparticles are proposed to contribute together to the significant current improvement.

AB - Layered metal thiophosphates with a general formula MPX3 (M is a group VIIB or VIII element and X is a chalcogen) have emerged as a novel member in a two-dimensional (2D) family with fascinating physical and chemical properties. Herein, the photoelectric performance of the few-layer MnPSe3 was studied for the first time. The multilayer MnPSe3 shows p-type conductivity and its field-effect transistor delivers an ultralow dark current of about 0.1 pA. The photoswitching ratio reaches μ103 at a wavelength of 375 nm, superior to that of other thiophosphates. A responsivity and detectivity of 392.78 mA/W and 2.19 × 109 Jones, respectively, have been demonstrated under irradiation of 375 nm laser with a power intensity of 0.1 mW/cm2. In particular, the photocurrent can be remarkably increased up to 30 times by integrating a layer of Au nanoparticle array at the bottom of the MnPSe3 layer. The metal-semiconductor interfacial electric field and the strain-induced flexoelectric polarization field caused by the underlying nanorugged Au nanoparticles are proposed to contribute together to the significant current improvement.

KW - 2D material

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KW - flexoelectricity

KW - p-type semiconductor

KW - phototransistor

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High-Performance Phototransistors Based on MnPSe₃and Its Hybrid Structures with Au Nanoparticles

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