Near-Infrared Self-Powered Linearly Polarized Photodetection and Digital Incoherent Holography Using WSe2/ReSe2van der Waals Heterostructure

Jongtae Ahn; Kyul Ko; Ji Hoon Kyhm; Hyun Soo Ra; Heesun Bae; Sungjae Hong; Dae Yeon Kim; Jisu Jang; Tae Wook Kim; Sungwon Choi; Ji Hoon Kang; Namhee Kwon; Soohyung Park; Byeong Kwon Ju; Ting Chung Poon; Min Chul Park; Seongil Im; Do Kyung Hwang

doi:10.1021/acsnano.1c06234

Near-Infrared Self-Powered Linearly Polarized Photodetection and Digital Incoherent Holography Using WSe₂/ReSe₂van der Waals Heterostructure

Jongtae Ahn
, Kyul Ko
, Ji Hoon Kyhm
, Hyun Soo Ra
, Heesun Bae
, Sungjae Hong
, Dae Yeon Kim
, Jisu Jang
, Tae Wook Kim
, Sungwon Choi
, Ji Hoon Kang
, Namhee Kwon
, Soohyung Park
, Byeong Kwon Ju
, Ting Chung Poon
, Min Chul Park^*
, Seongil Im^*
, Do Kyung Hwang^*

^*Corresponding author for this work

School of Electrical Engineering

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

100 Citations (Scopus)

Abstract

Polarization-sensitive photodetection has attracted considerable attention as an emerging technology for future optoelectronic applications such as three-dimensional (3D) imaging, quantum optics, and encryption. However, traditional photodetectors based on Si or III-V InGaAs semiconductors cannot directly detect polarized light without additional optical components. Herein, we demonstrate a self-powered linear-polarization-sensitive near-infrared (NIR) photodetector using a two-dimensional WSe2/ReSe2 van der Waals heterostructure. The WSe2/ReSe2 heterojunction photodiode with semivertical geometry exhibits excellent performance: an ideality factor of 1.67, a broad spectral photoresponse of 405-980 nm with a significant photovoltaic effect, outstanding linearity with a linear dynamic range wider than 100 dB, and rapid photoswitching behavior with a cutoff frequency up to 100 kHz. Strongly polarized excitonic transitions around the band edge in ReSe2 lead to significant 980 nm NIR linear-polarization-dependent photocurrent. This linear polarization sensitivity remains stable even after exposure to air for longer than five months. Furthermore, by leveraging the NIR (980 nm)-selective linear polarization detection of this photodiode under photovoltaic operation, we demonstrate digital incoherent holographic 3D imaging.

Original language	English
Pages (from-to)	17917-17925
Number of pages	9
Journal	ACS nano
Volume	15
Issue number	11
DOIs	https://doi.org/10.1021/acsnano.1c06234
Publication status	Published - 2021 Nov 23

Bibliographical note

Publisher Copyright:
©

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

Keywords

2D ReSe
2D WSe
digital incoherent holography
heterostructure
linear polarization detection

ASJC Scopus subject areas

General Materials Science
General Engineering
General Physics and Astronomy

Access to Document

10.1021/acsnano.1c06234

Cite this

Ahn, J., Ko, K., Kyhm, J. H., Ra, H. S., Bae, H., Hong, S., Kim, D. Y., Jang, J., Kim, T. W., Choi, S., Kang, J. H., Kwon, N., Park, S., Ju, B. K., Poon, T. C., Park, M. C., Im, S., & Hwang, D. K. (2021). Near-Infrared Self-Powered Linearly Polarized Photodetection and Digital Incoherent Holography Using WSe₂/ReSe₂van der Waals Heterostructure. ACS nano, 15(11), 17917-17925. https://doi.org/10.1021/acsnano.1c06234

Ahn, J, Ko, K, Kyhm, JH, Ra, HS, Bae, H, Hong, S, Kim, DY, Jang, J, Kim, TW, Choi, S, Kang, JH, Kwon, N, Park, S, Ju, BK, Poon, TC, Park, MC, Im, S & Hwang, DK 2021, 'Near-Infrared Self-Powered Linearly Polarized Photodetection and Digital Incoherent Holography Using WSe₂/ReSe₂van der Waals Heterostructure', ACS nano, vol. 15, no. 11, pp. 17917-17925. https://doi.org/10.1021/acsnano.1c06234

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title = "Near-Infrared Self-Powered Linearly Polarized Photodetection and Digital Incoherent Holography Using WSe2/ReSe2van der Waals Heterostructure",

abstract = "Polarization-sensitive photodetection has attracted considerable attention as an emerging technology for future optoelectronic applications such as three-dimensional (3D) imaging, quantum optics, and encryption. However, traditional photodetectors based on Si or III-V InGaAs semiconductors cannot directly detect polarized light without additional optical components. Herein, we demonstrate a self-powered linear-polarization-sensitive near-infrared (NIR) photodetector using a two-dimensional WSe2/ReSe2 van der Waals heterostructure. The WSe2/ReSe2 heterojunction photodiode with semivertical geometry exhibits excellent performance: an ideality factor of 1.67, a broad spectral photoresponse of 405-980 nm with a significant photovoltaic effect, outstanding linearity with a linear dynamic range wider than 100 dB, and rapid photoswitching behavior with a cutoff frequency up to 100 kHz. Strongly polarized excitonic transitions around the band edge in ReSe2 lead to significant 980 nm NIR linear-polarization-dependent photocurrent. This linear polarization sensitivity remains stable even after exposure to air for longer than five months. Furthermore, by leveraging the NIR (980 nm)-selective linear polarization detection of this photodiode under photovoltaic operation, we demonstrate digital incoherent holographic 3D imaging.",

keywords = "2D ReSe, 2D WSe, digital incoherent holography, heterostructure, linear polarization detection",

author = "Jongtae Ahn and Kyul Ko and Kyhm, \{Ji Hoon\} and Ra, \{Hyun Soo\} and Heesun Bae and Sungjae Hong and Kim, \{Dae Yeon\} and Jisu Jang and Kim, \{Tae Wook\} and Sungwon Choi and Kang, \{Ji Hoon\} and Namhee Kwon and Soohyung Park and Ju, \{Byeong Kwon\} and Poon, \{Ting Chung\} and Park, \{Min Chul\} and Seongil Im and Hwang, \{Do Kyung\}",

note = "Publisher Copyright: {\textcopyright} ",

year = "2021",

month = nov,

day = "23",

doi = "10.1021/acsnano.1c06234",

language = "English",

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AU - Ahn, Jongtae

AU - Ko, Kyul

AU - Kyhm, Ji Hoon

AU - Ra, Hyun Soo

AU - Bae, Heesun

AU - Hong, Sungjae

AU - Kim, Dae Yeon

AU - Jang, Jisu

AU - Kim, Tae Wook

AU - Choi, Sungwon

AU - Kang, Ji Hoon

AU - Kwon, Namhee

AU - Park, Soohyung

AU - Ju, Byeong Kwon

AU - Poon, Ting Chung

AU - Park, Min Chul

AU - Im, Seongil

AU - Hwang, Do Kyung

PY - 2021/11/23

Y1 - 2021/11/23

N2 - Polarization-sensitive photodetection has attracted considerable attention as an emerging technology for future optoelectronic applications such as three-dimensional (3D) imaging, quantum optics, and encryption. However, traditional photodetectors based on Si or III-V InGaAs semiconductors cannot directly detect polarized light without additional optical components. Herein, we demonstrate a self-powered linear-polarization-sensitive near-infrared (NIR) photodetector using a two-dimensional WSe2/ReSe2 van der Waals heterostructure. The WSe2/ReSe2 heterojunction photodiode with semivertical geometry exhibits excellent performance: an ideality factor of 1.67, a broad spectral photoresponse of 405-980 nm with a significant photovoltaic effect, outstanding linearity with a linear dynamic range wider than 100 dB, and rapid photoswitching behavior with a cutoff frequency up to 100 kHz. Strongly polarized excitonic transitions around the band edge in ReSe2 lead to significant 980 nm NIR linear-polarization-dependent photocurrent. This linear polarization sensitivity remains stable even after exposure to air for longer than five months. Furthermore, by leveraging the NIR (980 nm)-selective linear polarization detection of this photodiode under photovoltaic operation, we demonstrate digital incoherent holographic 3D imaging.

AB - Polarization-sensitive photodetection has attracted considerable attention as an emerging technology for future optoelectronic applications such as three-dimensional (3D) imaging, quantum optics, and encryption. However, traditional photodetectors based on Si or III-V InGaAs semiconductors cannot directly detect polarized light without additional optical components. Herein, we demonstrate a self-powered linear-polarization-sensitive near-infrared (NIR) photodetector using a two-dimensional WSe2/ReSe2 van der Waals heterostructure. The WSe2/ReSe2 heterojunction photodiode with semivertical geometry exhibits excellent performance: an ideality factor of 1.67, a broad spectral photoresponse of 405-980 nm with a significant photovoltaic effect, outstanding linearity with a linear dynamic range wider than 100 dB, and rapid photoswitching behavior with a cutoff frequency up to 100 kHz. Strongly polarized excitonic transitions around the band edge in ReSe2 lead to significant 980 nm NIR linear-polarization-dependent photocurrent. This linear polarization sensitivity remains stable even after exposure to air for longer than five months. Furthermore, by leveraging the NIR (980 nm)-selective linear polarization detection of this photodiode under photovoltaic operation, we demonstrate digital incoherent holographic 3D imaging.

KW - 2D ReSe

KW - 2D WSe

KW - digital incoherent holography

KW - heterostructure

KW - linear polarization detection

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