Nanoscale Bubble Dynamics Induced by Damage of Graphene Liquid Cells

Sota Hirokawa; Hideaki Teshima; Pablo Solís-Fernández; Hiroki Ago; Yoko Tomo; Qin-Yi Li; Koji Takahashi

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Nanoscale Bubble Dynamics Induced by Damage of Graphene Liquid Cells

机译：石墨烯液体细胞损伤引起的纳米级气泡动力学

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Graphene liquid cells provide the highest possible spatial resolution for liquid-phase transmission electron microscopy. Here, in graphene liquid cells (GLCs), we studied the nanoscale dynamics of bubbles induced by controllable damage in graphene. The extent of damage depended on the electron dose rate and the presence of bubbles in the cell. After graphene was damaged, air leaked from the bubbles into the water. We also observed the unexpected directional nucleation of new bubbles, which is beyond the explanation of conventional diffusion theory. We attributed this to the effect of nanoscale confinement. These findings provide new insights into complex fluid phenomena under nanoscale confinement.

机译：石墨烯液体电池为液相透射电子显微镜提供了最高可能的空间分辨率。这里，在石墨烯液体电池（GLC）中，我们研究了通过可控损伤的石墨烯诱导的气泡的纳米级动态。损伤程度依赖于电子剂量率和细胞中的气泡存在。在石墨烯损坏后，空气从气泡泄漏到水中。我们还观察到新气泡的意想不到的方向成，这超出了传统扩散理论的解释。我们将其归因于纳米尺度约束的影响。这些发现在纳米尺度限制下对复杂的流体现象提供了新的洞察力。

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《ACS Omega》 |2020年第19期|共6页
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Sota Hirokawa; Hideaki Teshima; Pablo Solís-Fernández; Hiroki Ago; Yoko Tomo; Qin-Yi Li; Koji Takahashi;
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1. Dynamic behavior of nanoscale liquids in graphene liquid cells revealed by in situ transmission electron microscopy [J] . Jiwoong Yang, Sardar B. Alam, Lei Yu, Micron: The international research and review journal for microscopy . 2019,第期

机译：纳米级液体细胞中纳米液体液体的动态行为：Italic>原位>斜体>透射电子显微镜
2. Effects of Bubble-Liquid Two-Phase Turbulent Hydrodynamics on Cell Damage in Sparged Bioreactor [J] . Yang Liu, Fanxing Li, Weiwei Hu Biotechnology Progress . 2014,第1期

机译：气泡-液体两相湍流动力学对稀疏生物反应器细胞损伤的影响
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机译：高保真可视化包含金纳米颗粒的液体中激光诱导气泡的多尺度动力学
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机译：YAG激光在液氮中聚焦和低温激光处理颗粒引起的气泡动力学
5. Quantitative studies of the bubble-cell interactions and the mechanisms of mammalian cell damage from hydrodynamic forces. [D] . Ma, Ningning. 2002

机译：泡沫细胞相互作用和流体动力对哺乳动物细胞损伤机制的定量研究。
6. Nanoscale Bubble Dynamics Induced by Damage of GrapheneLiquid Cells [O] . Sota Hirokawa, Hideaki Teshima, Pablo Solís-Fernández, 2020

机译：石墨烯损伤引起的纳米尺度气泡动力学液体细胞
7. High fidelity visualization of multiscale dynamics of laser-induced bubbles in liquids containing gold nanoparticles [O] . Manoj K. Bhuyan, Antonin Soleilhac, Madhura Somayaji, 2018

机译：在含金纳米粒子的液体中激光诱导的气泡的多尺度动态的高保真性可视化

Nanoscale Bubble Dynamics Induced by Damage of Graphene Liquid Cells

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