Jeong Se-Yun, Seo Han-Bok, Seo Myung-Hyun, Cho Jin-Woo, Kwon Seho, Son Gihun, Lee Seung-Yop
Department of Mechanical Engineering, Sogang University, Baekbeom-ro 35, Mapo-gu, Seoul 04107, Republic of Korea.
Biomimetics (Basel). 2024 Feb 11;9(2):106. doi: 10.3390/biomimetics9020106.
, a fern, possesses a specialized spore-releasing mechanism like a catapult induced by the quick expansion of vaporized bubbles. This study introduces lipid-coated perfluorocarbon droplets to enable repeatable vaporization-condensation cycles, inspired by the repeatable vaporization of . Lipid-perfluorocarbon droplets have been considered not to exhibit repeatable oscillations due to bubble collapse of the low surface tension of lipid layers. However, a single lipid-dodecafluoropentane droplet with a diameter of 9.17 µm shows expansion-contraction oscillations over 4000 cycles by changing lipid composition and applying a low-power 1.7 MHz ultrasound to induce the partial vaporization of the droplets. The optimal combinations of shell composition, droplet fabrication, and acoustic conditions can minimize the damage on shell structure and promote a quick recovery of damaged shell layers. The highly expanding oscillatory microbubbles provide a new direction for fuel-free micro- or nanobots, as well as biomedical applications of contrast agents and drug delivery.
一种蕨类植物,具有一种类似弹射器的特殊孢子释放机制,由汽化气泡的快速膨胀引发。本研究引入脂质包裹的全氟化碳液滴,以实现可重复的汽化-冷凝循环,其灵感来源于[原文此处可能有缺失内容]的可重复汽化。由于脂质层表面张力低导致气泡坍塌,脂质-全氟化碳液滴一直被认为不会表现出可重复的振荡。然而,一个直径为9.17 µm的单一脂质-十二氟戊烷液滴,通过改变脂质成分并施加低功率1.7 MHz超声波以诱导液滴的部分汽化,显示出超过4000次循环的膨胀-收缩振荡。壳层成分、液滴制备和声学条件的最佳组合可以使对壳层结构的损伤最小化,并促进受损壳层的快速恢复。高度膨胀的振荡微泡为无燃料的微型或纳米机器人以及造影剂和药物递送的生物医学应用提供了一个新方向。
