Acoustic droplet vaporization and inertial cavitation thresholds and efficiencies of nanodroplets emulsions inside the focused region using a dual-frequency ring focused ultrasound

空化 微气泡 超声 汽化 材料科学 超声波 声化学 低频 声学 化学 物理 色谱法 电信 计算机科学 有机化学
作者
Shanshan Xu,Nan Chang,Rui Wang,Xiaodong Liu,Shifang Guo,Supin Wang,Yujin Zong,Mingxi Wan
出处
期刊:Ultrasonics Sonochemistry [Elsevier BV]
卷期号:48: 532-537 被引量:21
标识
DOI:10.1016/j.ultsonch.2018.07.020
摘要

In this work, in order to develop a low-acoustic-intensity, high-efficiency and precise-treatment strategy, the vaporization of droplets and the inertial cavitation of vaporized microbubbles, using a dual-frequency focused ultrasound transducer, were investigated. The effect of a low frequency (LF), 1.1-MHz, sonication on droplet vaporization and the following inertial cavitation by the introduction of a high frequency (HF), 5-MHz, sonication was studied. It is shown that acoustic droplet vaporization (ADV) threshold is the lowest at dual-frequency sonication (LF of 18.9 W/cm2 and HF of 4.1 W/cm2); moreover, the ADV efficiency is the highest at intensity threshold. The ADV area can be minimized to 2 mm2 using a dual-frequency sonication (LF of 38.1 W/cm2 and HF of 8.5 W/cm2). The IC area and efficiency can also be modulated using a dual-frequency sonication. Consequently, it can be concluded that in contrast to the single-frequency sonication, using the dual-frequency ultrasound, the vaporization of nanodroplets and the following inertial cavitation of the vaporized microbubbles can be modulated. Besides, a dual-frequency can result in the minimum ADV/IC area, lowest ADV/IC threshold, and highest ADV/IC efficiency.

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