Environmental Sensitivity of Fabry-Perot Microcavities Induced by Layered Graphene-Dielectric Hybrid Coatings

Rui Peixoto; J. P. Santos Pires; Catarina S. Monteiro; Maria Raposo; Paulo A. Ribeiro; Susana O. Silva; Orlando Frazão; J. M. Viana Parente Lopes

doi:10.1103/PhysRevApplied.16.044041

Environmental Sensitivity of Fabry-Perot Microcavities Induced by Layered Graphene-Dielectric Hybrid Coatings

Rui Peixoto, J. P. Santos Pires, Catarina S. Monteiro, Maria Raposo, Paulo A. Ribeiro, Susana O. Silva, Orlando Frazão, J. M. Viana Parente Lopes

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

1 Citation (Scopus)

Abstract

We propose a fiber-based environmental sensor that exploits the reflection-phase-shift tunability provided by the use of layered coatings composed of dielectric slabs spaced by conducting membranes. A transfer-matrix study is done in a simplified theoretical model, for which an enhanced sensitivity of the reflection interference pattern to the output medium is demonstrated, in the typical refractive index range of liquid media. An experimental configuration using a cascaded Fabry-Perot microcavity coated by a graphene oxide/polyethylenimine (GO/PEI) multilayered structure is demonstrated. Its cost-effective chemical production method makes graphene oxide-based hybrid coatings excellent candidates for future real-life sensing devices.

Original language	English
Article number	A74
Journal	Physical Review Applied
Volume	16
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevApplied.16.044041
Publication status	Published - Oct 2021

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@article{1a8b679223ef42d98a2c012cebe19866,

title = "Environmental Sensitivity of Fabry-Perot Microcavities Induced by Layered Graphene-Dielectric Hybrid Coatings",

abstract = "We propose a fiber-based environmental sensor that exploits the reflection-phase-shift tunability provided by the use of layered coatings composed of dielectric slabs spaced by conducting membranes. A transfer-matrix study is done in a simplified theoretical model, for which an enhanced sensitivity of the reflection interference pattern to the output medium is demonstrated, in the typical refractive index range of liquid media. An experimental configuration using a cascaded Fabry-Perot microcavity coated by a graphene oxide/polyethylenimine (GO/PEI) multilayered structure is demonstrated. Its cost-effective chemical production method makes graphene oxide-based hybrid coatings excellent candidates for future real-life sensing devices.",

author = "Rui Peixoto and Pires, \{J. P. Santos\} and Monteiro, \{Catarina S.\} and Maria Raposo and Ribeiro, \{Paulo A.\} and Silva, \{Susana O.\} and Orlando Fraz{\~a}o and Lopes, \{J. M. Viana Parente\}",

note = "Funding Information: Portuguese Foundation for Science and Technology (FCT) COMPETE 2020 program in the FEDER component UltraGraf Funding Information: We acknowledge financial support by the Portuguese Foundation for Science and Technology (FCT) within the Strategic Funding (Grant No. UIDB/04650/2020) and COMPETE 2020 program in the FEDER component (European Union), through Grant No. POCI-01-0145-FEDER-028887 and UltraGraf (Grant No. M-ERA-NET2/0002/2016). J.P.S.P. and C.S.M. were further supported by FCT Ph.D. Grants No. PD/BD/142774/2018 and No. SFRH/BD/135820/2018, respectively. J.P.S.P. thanks S. M. Jo{\~a}o, C. D. Fernandes, Professor J. M. B. Lopes dos Santos, and Professor N. M. R. Peres for profitable discussions and useful comments on this work. Publisher Copyright: {\textcopyright} 2021 American Physical Society",

year = "2021",

month = oct,

doi = "10.1103/PhysRevApplied.16.044041",

language = "English",

volume = "16",

journal = "Physical Review Applied",

issn = "2331-7019",

publisher = "American Physical Society",

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AU - Peixoto, Rui

AU - Pires, J. P. Santos

AU - Monteiro, Catarina S.

AU - Raposo, Maria

AU - Ribeiro, Paulo A.

AU - Silva, Susana O.

AU - Frazão, Orlando

AU - Lopes, J. M. Viana Parente

N1 - Funding Information: Portuguese Foundation for Science and Technology (FCT) COMPETE 2020 program in the FEDER component UltraGraf Funding Information: We acknowledge financial support by the Portuguese Foundation for Science and Technology (FCT) within the Strategic Funding (Grant No. UIDB/04650/2020) and COMPETE 2020 program in the FEDER component (European Union), through Grant No. POCI-01-0145-FEDER-028887 and UltraGraf (Grant No. M-ERA-NET2/0002/2016). J.P.S.P. and C.S.M. were further supported by FCT Ph.D. Grants No. PD/BD/142774/2018 and No. SFRH/BD/135820/2018, respectively. J.P.S.P. thanks S. M. João, C. D. Fernandes, Professor J. M. B. Lopes dos Santos, and Professor N. M. R. Peres for profitable discussions and useful comments on this work. Publisher Copyright: © 2021 American Physical Society

PY - 2021/10

Y1 - 2021/10

N2 - We propose a fiber-based environmental sensor that exploits the reflection-phase-shift tunability provided by the use of layered coatings composed of dielectric slabs spaced by conducting membranes. A transfer-matrix study is done in a simplified theoretical model, for which an enhanced sensitivity of the reflection interference pattern to the output medium is demonstrated, in the typical refractive index range of liquid media. An experimental configuration using a cascaded Fabry-Perot microcavity coated by a graphene oxide/polyethylenimine (GO/PEI) multilayered structure is demonstrated. Its cost-effective chemical production method makes graphene oxide-based hybrid coatings excellent candidates for future real-life sensing devices.

AB - We propose a fiber-based environmental sensor that exploits the reflection-phase-shift tunability provided by the use of layered coatings composed of dielectric slabs spaced by conducting membranes. A transfer-matrix study is done in a simplified theoretical model, for which an enhanced sensitivity of the reflection interference pattern to the output medium is demonstrated, in the typical refractive index range of liquid media. An experimental configuration using a cascaded Fabry-Perot microcavity coated by a graphene oxide/polyethylenimine (GO/PEI) multilayered structure is demonstrated. Its cost-effective chemical production method makes graphene oxide-based hybrid coatings excellent candidates for future real-life sensing devices.

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JO - Physical Review Applied

JF - Physical Review Applied

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ER -

Environmental Sensitivity of Fabry-Perot Microcavities Induced by Layered Graphene-Dielectric Hybrid Coatings

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