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Electrodeposition of 2D layered tungsten diselenide thin films using a single source precursor

Electrodeposition of 2D layered tungsten diselenide thin films using a single source precursor
Electrodeposition of 2D layered tungsten diselenide thin films using a single source precursor
The development of area-selective, scalable deposition methods for the anisotropic growth of transition metal dichalcogenide (TMDC) thin films with a planar morphology is essential for their practical applications in integrated electronic and optoelectronic devices. In this work, we report on the electrodeposition of layered WSe2 from a single source molecular precursor, containing both W and Se, for the first time. Using WSeCl4 in an acetonitrile (MeCN) electrolyte solution, we have employed cyclic voltammetry (CV) and electrochemical quartz crystal microbalance (EQCM) techniques to study the electrochemical behaviour of WSeCl4. A pulsed electrodeposition technique was then used to deposit WSe2 films, which possess a homogeneous composition across the whole electrode area. Characterization using scanning and transmission electron microscopy, X-ray diffraction, X-ray photoelectron spectroscopy and Raman spectroscopy confirm the electrodeposited thin films to be WSe2. As a proof-of-concept for future growth directly into 3D device architectures, we present the 2D anisotropic growth of WSe2 thin films from the edge of a 100 nm thick TiN nanoband electrode across SiO2 on microfabricated 3D structures, allowing the direct measurement of electrical characteristics. Through this work, we also demonstrate electrodeposition as an area-selective growth technique suitable for obtaining highly anisotropic WSe2 thin films which are very promising for future electronic and optoelectronic applications.
Electrodeposition, 2D materials, WSe2, single source precursor
2050-7534
Thomas, Shibin
f9dd0751-582b-4c35-9725-36fbe08bbda8
Greenacre, Victoria K.
c665a38b-0b1a-4671-ac75-bf0679dd1c57
Zhang, Jiapei
d05e197a-a97d-44a5-998a-dc4bf242a5a0
Zhelev, Nikolay
76a8a0dd-0c24-4483-a217-b17ee26bd79b
Ramadan, Sami
d5dfd104-7211-4bfd-8f78-8d2a2f1481df
Han, Yisong
9307e57c-85b5-461d-93c5-9c3081224c02
Beanland, Richard
77643be6-0c38-4542-b05a-4ccc14efdc25
Abdelazim, Nema M.
2ac8bd5e-cbf1-4d9a-adcb-65dedf244b9b
Noori, Yasir J.
704d0b70-1ea6-4e00-92ce-cc2543087a09
De Groot, Kees
92cd2e02-fcc4-43da-8816-c86f966be90c
Reid, Gillian
37d35b11-40ce-48c5-a68e-f6ce04cd4037
Bartlett, Philip N.
d99446db-a59d-4f89-96eb-f64b5d8bb075
Thomas, Shibin
f9dd0751-582b-4c35-9725-36fbe08bbda8
Greenacre, Victoria K.
c665a38b-0b1a-4671-ac75-bf0679dd1c57
Zhang, Jiapei
d05e197a-a97d-44a5-998a-dc4bf242a5a0
Zhelev, Nikolay
76a8a0dd-0c24-4483-a217-b17ee26bd79b
Ramadan, Sami
d5dfd104-7211-4bfd-8f78-8d2a2f1481df
Han, Yisong
9307e57c-85b5-461d-93c5-9c3081224c02
Beanland, Richard
77643be6-0c38-4542-b05a-4ccc14efdc25
Abdelazim, Nema M.
2ac8bd5e-cbf1-4d9a-adcb-65dedf244b9b
Noori, Yasir J.
704d0b70-1ea6-4e00-92ce-cc2543087a09
De Groot, Kees
92cd2e02-fcc4-43da-8816-c86f966be90c
Reid, Gillian
37d35b11-40ce-48c5-a68e-f6ce04cd4037
Bartlett, Philip N.
d99446db-a59d-4f89-96eb-f64b5d8bb075

Thomas, Shibin, Greenacre, Victoria K., Zhang, Jiapei, Zhelev, Nikolay, Ramadan, Sami, Han, Yisong, Beanland, Richard, Abdelazim, Nema M., Noori, Yasir J., De Groot, Kees, Reid, Gillian and Bartlett, Philip N. (2024) Electrodeposition of 2D layered tungsten diselenide thin films using a single source precursor. Journal of Materials Chemistry C. (doi:10.1039/d4tc02755h).

Record type: Article

Abstract

The development of area-selective, scalable deposition methods for the anisotropic growth of transition metal dichalcogenide (TMDC) thin films with a planar morphology is essential for their practical applications in integrated electronic and optoelectronic devices. In this work, we report on the electrodeposition of layered WSe2 from a single source molecular precursor, containing both W and Se, for the first time. Using WSeCl4 in an acetonitrile (MeCN) electrolyte solution, we have employed cyclic voltammetry (CV) and electrochemical quartz crystal microbalance (EQCM) techniques to study the electrochemical behaviour of WSeCl4. A pulsed electrodeposition technique was then used to deposit WSe2 films, which possess a homogeneous composition across the whole electrode area. Characterization using scanning and transmission electron microscopy, X-ray diffraction, X-ray photoelectron spectroscopy and Raman spectroscopy confirm the electrodeposited thin films to be WSe2. As a proof-of-concept for future growth directly into 3D device architectures, we present the 2D anisotropic growth of WSe2 thin films from the edge of a 100 nm thick TiN nanoband electrode across SiO2 on microfabricated 3D structures, allowing the direct measurement of electrical characteristics. Through this work, we also demonstrate electrodeposition as an area-selective growth technique suitable for obtaining highly anisotropic WSe2 thin films which are very promising for future electronic and optoelectronic applications.

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Accepted/In Press date: 14 October 2024
e-pub ahead of print date: 15 October 2024
Keywords: Electrodeposition, 2D materials, WSe2, single source precursor
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Identifiers

Local EPrints ID: 495830
URI: http://eprints.soton.ac.uk/id/eprint/495830
DOI: doi:10.1039/d4tc02755h
ISSN: 2050-7534
PURE UUID: dcbdbecd-e0bc-47ad-b06b-5ef704f310bb
ORCID for Shibin Thomas: ORCID iD orcid.org/0000-0002-7735-788X
ORCID for Victoria K. Greenacre: ORCID iD orcid.org/0000-0002-3381-9616
ORCID for Yasir J. Noori: ORCID iD orcid.org/0000-0001-5285-8779
ORCID for Kees De Groot: ORCID iD orcid.org/0000-0002-3850-7101
ORCID for Gillian Reid: ORCID iD orcid.org/0000-0001-5349-3468
ORCID for Philip N. Bartlett: ORCID iD orcid.org/0000-0002-7300-6900

Catalogue record

Date deposited: 25 Nov 2024 17:41
Last modified: 26 Nov 2024 02:57

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Contributors

Author: Shibin Thomas ORCID iD
Author: Victoria K. Greenacre ORCID iD
Author: Jiapei Zhang
Author: Nikolay Zhelev
Author: Sami Ramadan
Author: Yisong Han
Author: Richard Beanland
Author: Nema M. Abdelazim
Author: Yasir J. Noori ORCID iD
Author: Kees De Groot ORCID iD
Author: Gillian Reid ORCID iD
Author: Philip N. Bartlett ORCID iD

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