Negative Photoconductivity in 2D α-MoO3/Ir Self-Powered Photodetector: Impact of Post-Annealing

Mohamed A. Basyooni; Shrouk E. Zaki; Khalid Rahmani; Redouane En-nadir; Yasin Ramazan Eker

doi:10.3390/ma16206756

Negative Photoconductivity in 2D α-MoO3/Ir Self-Powered Photodetector: Impact of Post-Annealing

Mohamed A. Basyooni^*, Shrouk E. Zaki, Khalid Rahmani, Redouane En-nadir, Yasin Ramazan Eker

^*Corresponding author for this work

Dynamics of Micro and Nano Systems

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

35 Downloads (Pure)

Abstract

Surface plasmon technology is regarded as having significant potential for the enhancement of the performance of 2D oxide semiconductors, especially in terms of improving the light absorption of 2D MoO3 photodetectors. An ultrathin MoO3/Ir/SiO2/Si heterojunction Schottky self-powered photodetector is introduced here to showcase positive photoconductivity. In wafer-scale production, the initial un-annealed Mo/2 nm Ir/SiO2/Si sample displays a sheet carrier concentration of 5.76 × 1011/cm², which subsequently increases to 6.74 × 1012/cm² after annealing treatment, showing a negative photoconductivity behavior at a 0 V bias voltage. This suggests that annealing enhances the diffusion of Ir into the MoO3 layer, resulting in an increased phonon scattering probability and, consequently, an extension of the negative photoconductivity behavior. This underscores the significance of negative photoconductive devices in the realm of optoelectronic applications.

Original language	English
Article number	6756
Number of pages	16
Journal	Materials
Volume	16
Issue number	20
DOIs	https://doi.org/10.3390/ma16206756
Publication status	Published - 2023

Keywords

negative photoconductivity
thin film
photodetector
plasmonic
2D oxide semiconductors

Access to Document

10.3390/ma16206756

materials-16-06756Final published version, 4.16 MBLicence: CC BY

Cite this

@article{f80a93330b334c7fb36c76c0900ab01d,

title = "Negative Photoconductivity in 2D α-MoO3/Ir Self-Powered Photodetector: Impact of Post-Annealing ",

abstract = "Surface plasmon technology is regarded as having significant potential for the enhancement of the performance of 2D oxide semiconductors, especially in terms of improving the light absorption of 2D MoO3 photodetectors. An ultrathin MoO3/Ir/SiO2/Si heterojunction Schottky self-powered photodetector is introduced here to showcase positive photoconductivity. In wafer-scale production, the initial un-annealed Mo/2 nm Ir/SiO2/Si sample displays a sheet carrier concentration of 5.76 × 1011/cm², which subsequently increases to 6.74 × 1012/cm² after annealing treatment, showing a negative photoconductivity behavior at a 0 V bias voltage. This suggests that annealing enhances the diffusion of Ir into the MoO3 layer, resulting in an increased phonon scattering probability and, consequently, an extension of the negative photoconductivity behavior. This underscores the significance of negative photoconductive devices in the realm of optoelectronic applications.",

keywords = "negative photoconductivity, thin film, photodetector, plasmonic, 2D oxide semiconductors",

author = "Basyooni, {Mohamed A.} and Zaki, {Shrouk E.} and Khalid Rahmani and Redouane En-nadir and Eker, {Yasin Ramazan}",

year = "2023",

doi = "10.3390/ma16206756",

language = "English",

volume = "16 ",

journal = "Materials",

issn = "1996-1944",

publisher = "MDPI",

number = "20",

}

TY - JOUR

T1 - Negative Photoconductivity in 2D α-MoO3/Ir Self-Powered Photodetector

T2 - Impact of Post-Annealing

AU - Basyooni, Mohamed A.

AU - Zaki, Shrouk E.

AU - Rahmani, Khalid

AU - En-nadir, Redouane

AU - Eker, Yasin Ramazan

PY - 2023

Y1 - 2023

N2 - Surface plasmon technology is regarded as having significant potential for the enhancement of the performance of 2D oxide semiconductors, especially in terms of improving the light absorption of 2D MoO3 photodetectors. An ultrathin MoO3/Ir/SiO2/Si heterojunction Schottky self-powered photodetector is introduced here to showcase positive photoconductivity. In wafer-scale production, the initial un-annealed Mo/2 nm Ir/SiO2/Si sample displays a sheet carrier concentration of 5.76 × 1011/cm², which subsequently increases to 6.74 × 1012/cm² after annealing treatment, showing a negative photoconductivity behavior at a 0 V bias voltage. This suggests that annealing enhances the diffusion of Ir into the MoO3 layer, resulting in an increased phonon scattering probability and, consequently, an extension of the negative photoconductivity behavior. This underscores the significance of negative photoconductive devices in the realm of optoelectronic applications.

AB - Surface plasmon technology is regarded as having significant potential for the enhancement of the performance of 2D oxide semiconductors, especially in terms of improving the light absorption of 2D MoO3 photodetectors. An ultrathin MoO3/Ir/SiO2/Si heterojunction Schottky self-powered photodetector is introduced here to showcase positive photoconductivity. In wafer-scale production, the initial un-annealed Mo/2 nm Ir/SiO2/Si sample displays a sheet carrier concentration of 5.76 × 1011/cm², which subsequently increases to 6.74 × 1012/cm² after annealing treatment, showing a negative photoconductivity behavior at a 0 V bias voltage. This suggests that annealing enhances the diffusion of Ir into the MoO3 layer, resulting in an increased phonon scattering probability and, consequently, an extension of the negative photoconductivity behavior. This underscores the significance of negative photoconductive devices in the realm of optoelectronic applications.

KW - negative photoconductivity

KW - thin film

KW - photodetector

KW - plasmonic

KW - 2D oxide semiconductors

U2 - 10.3390/ma16206756

DO - 10.3390/ma16206756

M3 - Article

SN - 1996-1944

VL - 16

JO - Materials

JF - Materials

IS - 20

M1 - 6756

ER -

Negative Photoconductivity in 2D α-MoO3/Ir Self-Powered Photodetector: Impact of Post-Annealing

Abstract

Keywords

Access to Document

Fingerprint

Cite this