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Journals >Advanced Photonics Nexus >Volume 2 >Issue 5 >Page 056006 > Article

Advanced Photonics Nexus
Vol. 2, Issue 5, 056006 (2023)

Highly sensitive miniature needle PVDF-TrFE ultrasound sensor for optoacoustic microscopy

Yu-Hang Liu^1,2, Alexey Kurnikov³, Weiye Li^1,2, Pavel Subochev³, and Daniel Razansky^1,2,*

Author Affiliations

¹University of Zurich, Institute of Pharmacology and Toxicology and Institute for Biomedical Engineering, Faculty of Medicine, Zurich, Switzerland

²ETH Zurich, Institute for Biomedical Engineering, Department of Information Technology and Electrical Engineering, Zurich, Switzerland

³Russian Academy of Sciences, Institute of Applied Physics, Nizhny Novgorod, Russia

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DOI: 10.1117/1.APN.2.5.056006 Cite this Article Set citation alerts

Yu-Hang Liu, Alexey Kurnikov, Weiye Li, Pavel Subochev, Daniel Razansky, "Highly sensitive miniature needle PVDF-TrFE ultrasound sensor for optoacoustic microscopy," Adv. Photon. Nexus 2, 056006 (2023) Copy Citation Text

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References

[1] D. Ren et al. A review of transparent sensors for photoacoustic imaging applications. Photonics, 8, 324(2021).

[2] G. Wissmeyer et al. Looking at sound: optoacoustics with all-optical ultrasound detection. Light Sci. Appl., 7, 53(2018).

[3] J. Yao et al. High-speed label-free functional photoacoustic microscopy of mouse brain in action. Nat. Methods, 12, 407-410(2015).

[4] H. Guo et al. Photoacoustic endoscopy: a progress review. J. Biophotonics, 13, e202000217(2020).

[5] H. Guo et al. Detachable head-mounted photoacoustic microscope in freely moving mice. Opt. Lett., 46, 6055-6058(2021).

[6] S. M. Maswadi et al. All-optical optoacoustic microscopy based on probe beam deflection technique. Photoacoustics, 4, 91-101(2016).

[7] M. Seeger et al. Pushing the boundaries of optoacoustic microscopy by total impulse response characterization. Nat. Commun., 11, 2910(2020).

[8] W. Song et al. Fully integrated reflection-mode photoacoustic, two-photon, and second harmonic generation microscopy in vivo. Sci. Rep., 6, 32240(2016).

[9] J. Park et al. Quadruple ultrasound, photoacoustic, optical coherence, and fluorescence fusion imaging with a transparent ultrasound transducer. Proc. Natl. Acad. Sci. U. S. A., 118, e1920879118(2021).

[10] Y. Liang et al. Optical-resolution functional gastrointestinal photoacoustic endoscopy based on optical heterodyne detection of ultrasound. Nat. Commun., 13, 7604(2022).

[11] Y. H. Liu et al. Sensitive ultrawideband transparent PVDF-ITO ultrasound detector for optoacoustic microscopy. Opt. Lett., 47, 4163-4166(2022).

[12] J. M. Mayrhofer et al. Design and performance of an ultra-flexible two-photon microscope for in vivo research. Biomed. Opt. Express, 6, 4228-4237(2015).

[13] Y. H. Liu et al. Non-invasive longitudinal imaging of VEGF-induced microvascular alterations in skin wounds. Theranostics, 12, 558-573(2022).

[14] J. Rebling et al. Long-term imaging of wound angiogenesis with large scale optoacoustic microscopy. Adv. Sci.-Weinh, 8, 2004226(2021).

[15] S. W. Smith, S. W. Smith. Chapter 17: custom filters. Digital Signal Processing, 297-310(2003).

[16] A. Buades, B. Coll, J. M. Morel. A non-local algorithm for image denoising, 60-65(2005).

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Yu-Hang Liu, Alexey Kurnikov, Weiye Li, Pavel Subochev, Daniel Razansky, "Highly sensitive miniature needle PVDF-TrFE ultrasound sensor for optoacoustic microscopy," Adv. Photon. Nexus 2, 056006 (2023)

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