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Environmental sensor based on optical-resonance-enhancement in a MoS2 printed D-shaped single-mode fiber

Environmental sensor based on optical-resonance-enhancement in a MoS2 printed D-shaped single-mode fiber
Environmental sensor based on optical-resonance-enhancement in a MoS2 printed D-shaped single-mode fiber

Molybdenum disulfide (MoS2) has emerged as a versatile two-dimensional material platform for many optical and optoelectronic applications due to its layer-dependent band structure, which can be tuned from direct to indirect by increasing the number of layers. In this work, the integration of MoS2 layers onto a D-shaped side-polished optical fiber has been demonstrated using an inkjet printing technique. We show that MoS2 devices exhibit a strong wavelength dependent transmission spectrum, with a transmittance dip of ~ –50 dB, which can be tuned from near to the mid-infrared wavelength regions by varying the printing paths. Exposure of the MoS2 device to deionized water has revealed that the wavelength position of dip changes by more than 70 nm in response to the mode’s interaction with the liquid. These results indicate that inkjet-printed MoS2 devices could find applications for the development of environmental gas or humidity sensors.

Fiber optics, inkjet printing, optical properties, thin films, two-dimensional materials
0277-786X
SPIE - The International Society for Optical Engineering
GHOSH, AMAR NATH
e278484a-8d87-42be-a8ef-6d682e8fa9c3
Xiao, Mingfei
f6381385-63c8-4c1a-85a3-745617582784
Huang, Meng
79b89531-8bb9-4ab8-889a-c85b3b64d684
Chen, Jinrui
6f4c3dc9-c377-4403-ab71-a6818b2e43cd
Healy, Noel
337c152c-ee63-425d-9cd9-cd3399dd87b7
Hasan, Tawfique
79461b50-9d37-484f-b960-a604752f4328
Peacock, Anna
685d924c-ef6b-401b-a0bd-acf1f8e758fc
Kalli, Kyriacos
Peterka, Pavel
Bunge, Christian-Alexander
GHOSH, AMAR NATH
e278484a-8d87-42be-a8ef-6d682e8fa9c3
Xiao, Mingfei
f6381385-63c8-4c1a-85a3-745617582784
Huang, Meng
79b89531-8bb9-4ab8-889a-c85b3b64d684
Chen, Jinrui
6f4c3dc9-c377-4403-ab71-a6818b2e43cd
Healy, Noel
337c152c-ee63-425d-9cd9-cd3399dd87b7
Hasan, Tawfique
79461b50-9d37-484f-b960-a604752f4328
Peacock, Anna
685d924c-ef6b-401b-a0bd-acf1f8e758fc
Kalli, Kyriacos
Peterka, Pavel
Bunge, Christian-Alexander

GHOSH, AMAR NATH, Xiao, Mingfei, Huang, Meng, Chen, Jinrui, Healy, Noel, Hasan, Tawfique and Peacock, Anna (2024) Environmental sensor based on optical-resonance-enhancement in a MoS2 printed D-shaped single-mode fiber. Kalli, Kyriacos, Peterka, Pavel and Bunge, Christian-Alexander (eds.) In Specialty Optical Fibres VIII. vol. 13001, SPIE - The International Society for Optical Engineering.. (doi:10.1117/12.3022115).

Record type: Conference or Workshop Item (Paper)

Abstract

Molybdenum disulfide (MoS2) has emerged as a versatile two-dimensional material platform for many optical and optoelectronic applications due to its layer-dependent band structure, which can be tuned from direct to indirect by increasing the number of layers. In this work, the integration of MoS2 layers onto a D-shaped side-polished optical fiber has been demonstrated using an inkjet printing technique. We show that MoS2 devices exhibit a strong wavelength dependent transmission spectrum, with a transmittance dip of ~ –50 dB, which can be tuned from near to the mid-infrared wavelength regions by varying the printing paths. Exposure of the MoS2 device to deionized water has revealed that the wavelength position of dip changes by more than 70 nm in response to the mode’s interaction with the liquid. These results indicate that inkjet-printed MoS2 devices could find applications for the development of environmental gas or humidity sensors.

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More information

Published date: 20 June 2024
Keywords: Fiber optics, inkjet printing, optical properties, thin films, two-dimensional materials

Identifiers

Local EPrints ID: 495447
URI: http://eprints.soton.ac.uk/id/eprint/495447
DOI: doi:10.1117/12.3022115
ISSN: 0277-786X
PURE UUID: 432fc68c-305c-43c0-95b2-326046fa405a
ORCID for AMAR NATH GHOSH: ORCID iD orcid.org/0000-0002-5297-8321
ORCID for Meng Huang: ORCID iD orcid.org/0000-0002-5233-8519
ORCID for Anna Peacock: ORCID iD orcid.org/0000-0002-1940-7172

Catalogue record

Date deposited: 13 Nov 2024 17:50
Last modified: 14 Nov 2024 03:06

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Contributors

Author: AMAR NATH GHOSH ORCID iD
Author: Mingfei Xiao
Author: Meng Huang ORCID iD
Author: Jinrui Chen
Author: Noel Healy
Author: Tawfique Hasan
Author: Anna Peacock ORCID iD
Editor: Kyriacos Kalli
Editor: Pavel Peterka
Editor: Christian-Alexander Bunge

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