不同介质中Pickering全氟戊烷微滴的声学响应研究

A Study on the Acoustic Response of Pickering Perfluoropentane Droplets in Different Media.

作者信息

Loskutova Ksenia, Nimander Didrik, Gouwy Isabelle, Chen Hongjian, Ghorbani Morteza, Svagan Anna J, Grishenkov Dmitry

机构信息

Department of Biomedical Engineering and Health Systems, KTH Royal Institute of Technology, Stockholm 14157, Sweden.

Sabanci University Nanotechnology Research and Application Center, Istanbul 34956, Turkey.

出版信息

ACS Omega. 2021 Feb 17;6(8):5670-5678. doi: 10.1021/acsomega.0c06115. eCollection 2021 Mar 2.

DOI:10.1021/acsomega.0c06115

PMID:33681606

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7931408/

Abstract

Acoustic droplet vaporization (ADV) is the physical process of liquid-to-gas phase transition mediated by pressure variations in an ultrasound field. In this study, the acoustic response of novel particle-stabilized perfluoropentane droplets was studied in bulk and confined media. The oil/water interface was stabilized by cellulose nanofibers. First, their acoustic responses under idealized conditions were examined to assess their susceptibility to undergo ADV. Second, the droplets were studied in a more realistic setting and placed in a confined medium. Lastly, an imaging setup was developed and tested on the droplets. The acoustic response could be seen when the amplitude of the peak negative pressure (PNP) was above 200 kPa, suggesting that this is the vaporization pressure threshold for these droplets. Increasing the PNP resulted in a decrease in signal intensity over time, suggesting a more destructive behavior. The imaging setup was able to differentiate between the droplets and the surrounding tissue. Results obtained within this study suggest that these droplets have potential in terms of ultrasound-mediated diagnostics and therapy.

摘要

声滴汽化（ADV）是由超声场中的压力变化介导的从液体到气体的相变物理过程。在本研究中，研究了新型颗粒稳定的全氟戊烷液滴在本体介质和受限介质中的声学响应。油/水界面由纤维素纳米纤维稳定。首先，在理想化条件下检查它们的声学响应，以评估它们发生ADV的敏感性。其次，在更实际的环境中研究液滴并将其置于受限介质中。最后，开发了一种成像装置并对液滴进行了测试。当峰值负压（PNP）的幅度高于200 kPa时，可以看到声学响应，这表明这是这些液滴的汽化压力阈值。增加PNP会导致信号强度随时间下降，表明行为更具破坏性。成像装置能够区分液滴和周围组织。本研究中获得的结果表明，这些液滴在超声介导的诊断和治疗方面具有潜力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f480/7931408/9aef8a74bf35/ao0c06115_0002.jpg

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不同介质中Pickering全氟戊烷微滴的声学响应研究

A Study on the Acoustic Response of Pickering Perfluoropentane Droplets in Different Media.

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