Asymmetric electrode incorporated 2D GeSe for self-biased and efficient photodetection

2D layered germanium selenide (GeSe) with p -type conductivity is incorporated with asymmetric contact electrode of chromium/Gold (Cr/Au) and Palladium/Gold (Pd/Au) to design a self-biased, high speed and an efficient photodetector. The photoresponse under photovoltaic effect is investigated for the...

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Bibliographic Details
Published in:Scientific reports 2020-06, Vol.10 (1), p.9374-9374, Article 9374
Main Authors: Hussain, Muhammad, Aftab, Sikandar, Jaffery, Syed Hassan Abbas, Ali, Asif, Hussain, Sajjad, Cong, Dinh Nguyen, Akhtar, Raheel, Seo, Yongho, Eom, Jonghwa, Gautam, Praveen, Noh, Hwayong, Jung, Jongwan
Format: Article
Language:English
Subjects:
639/301
639/925
Chromium
Diodes
Electrodes
Germanium
Graphene
Humanities and Social Sciences
Irradiation
Light effects
Metals
multidisciplinary
Palladium
Photoresponse
Photovoltaics
Radiation
Reproducibility
Science
Science (multidisciplinary)
Selenide
Wavelengths
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Summary:2D layered germanium selenide (GeSe) with p -type conductivity is incorporated with asymmetric contact electrode of chromium/Gold (Cr/Au) and Palladium/Gold (Pd/Au) to design a self-biased, high speed and an efficient photodetector. The photoresponse under photovoltaic effect is investigated for the wavelengths of light (i.e. ~220, ~530 and ~850 nm). The device exhibited promising figures of merit required for efficient photodetection, specifically the Schottky barrier diode is highly sensitive to NIR light irradiation at zero voltage with good reproducibility, which is promising for the emergency application of fire detection and night vision. The high responsivity, detectivity, normalized photocurrent to dark current ratio (NPDR), noise equivalent power (NEP) and response time for illumination of light (~850 nm) are calculated to be 280 mA/W, 4.1 × 10 9 Jones, 3 × 10 7 W −1 , 9.1 × 10 −12 WHz −1/2 and 69 ms respectively. The obtained results suggested that p-GeSe is a novel candidate for SBD optoelectronics-based technologies.
ISSN:2045-2322
2045-2322
DOI:10.1038/s41598-020-66263-8