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Picosecond photoacoustic generation of ultrasounds with composites of graphene-decorated gold nanoparticles
ID
Vella, Daniele
(
Author
),
ID
Pereira, Diogo A.
(
Author
),
ID
Mrzel, Aleš
(
Author
),
ID
Vengust, Damjan
(
Author
),
ID
Drnovšek, Aljaž
(
Author
),
ID
Arnaut, Luís G.
(
Author
),
ID
Serpa, Carlos
(
Author
),
ID
Jezeršek, Matija
(
Author
)
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https://www.sciencedirect.com/science/article/pii/S2211285524009881
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Abstract
Photoacoustic or light-to-pressure transducer materials exhibit tremendous potential across various disciplines and applications, embracing theragnostic ultrasounds and permeabilization of biological barriers for drug delivery or for gene transfection. Here, we report the photoacoustic response in the picosecond excitation regime of graphene and gold nanoparticles decorated graphene dispersed in a polydimethylsiloxane polymer matrix. A novel decoration method was developed to nucleate Au nanoparticles of 25 nm on the graphene surface without reducing agent. We observed that the picosecond excitation enforced by the stress confinement generates high-frequency waves, with bandwidths of −6 dB and −20 dB of around 70 MHz and 130 MHz respectively, and peak pressure > 5 MPa. Further, the presence of gold surface decoration leads to a better dispersibility of the flake into the polymer matrix and to an increasing bandwidth at −6 dB up to 85 MHz. The decrease in source thickness leads to an increase in ultrasound frequency, which retains its value even when the laser fluence is increased up to 150 mJ cm$^{–2}$. This enables the generation of high pressures while keeping the same bandwidth. We experimentally show that the photoacoustic waveform can be tailored by changing the temporal duration of the laser light, the geometry of the acoustic source, and the nature of the graphene absorber. Flexible decoration and fabrication methods of thin films, along with the generation of high-frequency and high-pressure ultrasound waves, offer new perspectives for the use of physical methods to permeabilize biological barriers and develop high-resolution photoacoustic imaging systems.
Language:
English
Keywords:
graphene composites
,
gold nanoparticles decoration
,
photoacoustics
,
high-frequency ultrasound
,
photoacoustic waves
Work type:
Article
Typology:
1.01 - Original Scientific Article
Organization:
FS - Faculty of Mechanical Engineering
Publication status:
Published
Publication version:
Version of Record
Year:
2024
Number of pages:
12 str.
Numbering:
Vol. 131, pt. A, art. 110236
PID:
20.500.12556/RUL-162806
UDC:
535
ISSN on article:
2211-3282
DOI:
10.1016/j.nanoen.2024.110236
COBISS.SI-ID:
208436739
Publication date in RUL:
27.09.2024
Views:
145
Downloads:
55
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Record is a part of a journal
Title:
Nano energy
Publisher:
Elsevier
ISSN:
2211-3282
COBISS.SI-ID:
138242563
Licences
License:
CC BY-NC-ND 4.0, Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International
Link:
http://creativecommons.org/licenses/by-nc-nd/4.0/
Description:
The most restrictive Creative Commons license. This only allows people to download and share the work for no commercial gain and for no other purposes.
Secondary language
Language:
Slovenian
Keywords:
grafenski kompoziti
,
dekoracija z zlatimi nanodelci
,
fotoakustika
,
ultrazvok
,
fotoakustično valovanje
Projects
Funder:
ARRS - Slovenian Research Agency
Project number:
P2-0392
Name:
Optodinamika
Funder:
ARRS - Slovenian Research Agency
Project number:
J7-50094
Name:
Piezofotonski kompoziti na osnovi dvodimenzionalnih materialov za ultrazvočno stimulacijo v bioloških sistemih (2D-UltraS)
Funder:
EC - European Commission
Funding programme:
H2020
Project number:
871124
Name:
The Integrated Initiative of European Laser Research Infrastructures
Acronym:
LASERLAB-EUROPE
Funder:
FCT - Fundação para a Ciência e a Tecnologia, I.P.
Funding programme:
3599-PPCDT
Project number:
PTDC/QUI-OUT/0303/2021
Name:
Deliver-Detect-Defeat (DDD): how to place macromolecules in target cells and make therapies work
Acronym:
3D-Cancer
Funder:
FCT - Fundação para a Ciência e a Tecnologia, I.P.
Project number:
UIDP/00313/2020
Funder:
FCT - Fundação para a Ciência e a Tecnologia, I.P.
Project number:
UI/BD/153372/2022
Name:
Novel piezophotonic materials and their use in high-resolution imaging and gene transfection
Acronym:
UI/BD/153372/2022
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