2018年第79回応用物理学会秋季学術講演会

講演情報

一般セッション(口頭講演)

4 JSAP-OSA Joint Symposia 2018 » 4.7 Laser Material Processing and Manipulation

[19p-231B-1~9] 4.7 Laser Material Processing and Manipulation

2018年9月19日(水) 13:15 〜 16:45 231B (231-2)

細川 陽一郎(奈良先端大)、坂倉 政明(サウサンプトン大)

13:45 〜 14:00

[19p-231B-2] Femtosecond Laser-induced Jet Flow for Particles Manipulation in Microfluidic Chip with Assistance of Micro-Structure

〇(D)Zhen-Yi Hong1、Yalikun Yaxiaer1、Kazunori Okano1、Dino Di Carlo2、Yoichiroh Hosokawa1 (1.Division of Materials Science, Nara Institute of Science and Technology、2.Department of Bioengineering, University of California Los Angeles)

キーワード:Biotechnology, Cell sorter, Micro-fluidic chip

Cell sorting is an important technique for single-cell research. Especially, micro-chip cell sorting has
recently attracted attention for its potential of high-speed manipulation efficiency [1,2]. Now, we have developed a new cell sorting system combining a femtosecond laser (fs-laser) with a microfluidic chip. When an intense fs-laser is focused into liquid, an explosive evaporation of the aqueous solutions at the laser focal point induces a jet flow, which is utilized as an external force for manipulation. Herein, we proposed to modify this jet flow by making a micro-structure. In this work, we studied fluid dynamics at micro-structure in the chip channel, and applied this to our new sorting system. A glass-made microfluidic chip was fabricated by a conventional photo lithography and wet etching method. The microchip was set on an upright microscope, into which laser pulses from an Ytterbium femtosecond-laser amplifier (1040 nm, 400 fs, 1 MHz, <8 µJ/pulse) were introduced through a 40x water-immersed objective lens (NA. 0.8). Micro-particles as a phantom of cell were loaded into the channel. The particle motion before and after the femtosecond laser irradiation was recorded by high-speed imaging. As shown in Fig. 1, we prepared a channel with a valley-shaped micro-structure. When the laser was focused at the inside of the valley, the bubble shape was drastically deformed by the valley structure, though the bubble shape is spherical in free-area. The bubble shape was evaluated with ratio (H/W) of the bubble height (H) to the width (W), and confirmed to have a dependence on the valley shape (Fig. 2). The result implied that directionality of the laser-induced impulsive force could be controllable in assistance of micro-structure. We will investigate further controllability of direction and intensity of the impulsive force with several kinds of micro-structures to induce jet flow for high-speed manipulation.