Optoacoustic Effect in a Hybrid Multilayered Membrane Deposited on a Hollow-Core Microstructured Optical Waveguide
Optoacoustic Effect in a Hybrid Multilayered Membrane Deposited on a Hollow-Core Microstructured Optical Waveguide
Modern imaging technologies, including optoacoustic endoscopy, are based on the optoacoustic effect. Much promise is offered by the all-optical fiber-based approach, because fiber has a miniature cross section, is highly sensitive, and can be used in a variety of imaging and therapeutic techniques. We developed a probe based on a hollow-core microstructured optical waveguide (HC-MOW) with a hybrid nanostructured membrane. The membrane consisted of a free-standing single-walled carbon nanotube film and a Bragg reflector, which can be used as a source and a detector of ultrasound. Membrane vibrations were excited with an IR laser pulse and were read out by recording the intensity of the reflected visible CW laser light. We explained the nature of the intensity modulation of the reflected light and supported our explanation with numerical simulations of the membrane’s vibration eigenfrequencies and thermal distribution. The membrane vibrations were also observed with raster-scanning optoacoustic mesoscopy. The transmittance of the HC-MOW between 400 nm and 6.5 μm and that of the hybrid nanostructured membrane in the NIR range enable potential optoacoustic sensing in the IR fingerprint region of biomolecules. This permits the optoacoustic probe to be used for medical endoscopic purposes.
3346-3356
Kaydanov, Nikita
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Perevoschikov, Stanislav
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German, Sergei V
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Romanov, Stepan A
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Ermatov, Timur
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Kozyrev, Anton A
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Cvjetinovic, Julijana
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Machnev, Andrey
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Noskov, Roman
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Kosolobov, Sergey
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Skibina, Julia
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Nasibulin, Albert
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Zakian, Christian
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Lagoudakis, Pavlos
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Gorin, Dmitry
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17 November 2021
Kaydanov, Nikita
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Perevoschikov, Stanislav
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German, Sergei V
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Romanov, Stepan A
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Ermatov, Timur
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Kozyrev, Anton A
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Cvjetinovic, Julijana
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Machnev, Andrey
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Noskov, Roman
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Kosolobov, Sergey
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Skibina, Julia
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Nasibulin, Albert
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Zakian, Christian
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Lagoudakis, Pavlos
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Gorin, Dmitry
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Kaydanov, Nikita, Perevoschikov, Stanislav, German, Sergei V, Romanov, Stepan A, Ermatov, Timur, Kozyrev, Anton A, Cvjetinovic, Julijana, Machnev, Andrey, Noskov, Roman, Kosolobov, Sergey, Skibina, Julia, Nasibulin, Albert, Zakian, Christian, Lagoudakis, Pavlos and Gorin, Dmitry
(2021)
Optoacoustic Effect in a Hybrid Multilayered Membrane Deposited on a Hollow-Core Microstructured Optical Waveguide.
ACS Photonics, 8 (11), .
(doi:10.1021/acsphotonics.1c01311).
Abstract
Modern imaging technologies, including optoacoustic endoscopy, are based on the optoacoustic effect. Much promise is offered by the all-optical fiber-based approach, because fiber has a miniature cross section, is highly sensitive, and can be used in a variety of imaging and therapeutic techniques. We developed a probe based on a hollow-core microstructured optical waveguide (HC-MOW) with a hybrid nanostructured membrane. The membrane consisted of a free-standing single-walled carbon nanotube film and a Bragg reflector, which can be used as a source and a detector of ultrasound. Membrane vibrations were excited with an IR laser pulse and were read out by recording the intensity of the reflected visible CW laser light. We explained the nature of the intensity modulation of the reflected light and supported our explanation with numerical simulations of the membrane’s vibration eigenfrequencies and thermal distribution. The membrane vibrations were also observed with raster-scanning optoacoustic mesoscopy. The transmittance of the HC-MOW between 400 nm and 6.5 μm and that of the hybrid nanostructured membrane in the NIR range enable potential optoacoustic sensing in the IR fingerprint region of biomolecules. This permits the optoacoustic probe to be used for medical endoscopic purposes.
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e-pub ahead of print date: 3 November 2021
Published date: 17 November 2021
Identifiers
Local EPrints ID: 456183
URI: http://eprints.soton.ac.uk/id/eprint/456183
ISSN: 2330-4022
PURE UUID: 18139821-c4ae-4486-9390-ee4d08572adf
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Date deposited: 26 Apr 2022 15:25
Last modified: 16 Mar 2024 16:32
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Contributors
Author:
Nikita Kaydanov
Author:
Stanislav Perevoschikov
Author:
Sergei V German
Author:
Stepan A Romanov
Author:
Timur Ermatov
Author:
Anton A Kozyrev
Author:
Julijana Cvjetinovic
Author:
Andrey Machnev
Author:
Roman Noskov
Author:
Sergey Kosolobov
Author:
Julia Skibina
Author:
Albert Nasibulin
Author:
Christian Zakian
Author:
Pavlos Lagoudakis
Author:
Dmitry Gorin
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