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通过可变换光流体波导对粒子进行动态操控。

Dynamic manipulation of particles via transformative optofluidic waveguides.

作者信息

Lee Kang Soo, Lee Kyung Heon, Kim Sang Bok, Ha Byung Hang, Jung Jin Ho, Sung Hyung Jin, Kim Sang Soo

机构信息

Department of Mechanical Engineering, KAIST 291 Daehak-ro, Yuseong-gu, Daejeon 34141, Korea.

出版信息

Sci Rep. 2015 Oct 16;5:15170. doi: 10.1038/srep15170.

Abstract

Optofluidics is one of the most remarkable areas in the field of microfluidic research. Particle manipulation with optofluidic platforms has become central to optical chromatography, biotechnology, and μ-total analysis systems. Optical manipulation of particles depends on their sizes and refractive indices (n), which occasionally leads to undesirable separation consequences when their optical mobilities are identical. Here, we demonstrate rapid and dynamic particle manipulation according to n, regardless of size. Integrated liquid-core/solid-cladding (LS) and liquid-core/liquid-cladding (L(2)) waveguides were fabricated and their characteristics were experimentally and theoretically determined. The high and low n particles showed the opposite behaviors by controlling the contrast of their n values to those of the working fluids. The LS waveguide was found to successfully manipulate particles according to n, and the L(2) waveguide was found to provide additional system stability and flexibility, compared to the LS system.

摘要

光流体学是微流体研究领域中最引人注目的领域之一。利用光流体平台进行粒子操控已成为光学色谱、生物技术和微全分析系统的核心。对粒子的光学操控取决于其尺寸和折射率(n),当它们的光学迁移率相同时,这偶尔会导致不理想的分离结果。在此,我们展示了根据折射率对粒子进行快速且动态的操控,而与尺寸无关。制备了集成液芯/固包层(LS)和液芯/液包层(L(2))波导,并通过实验和理论确定了它们的特性。通过控制高折射率和低折射率粒子与工作流体折射率值的对比度,它们表现出相反的行为。结果发现,LS波导能够成功地根据折射率操控粒子,并且与LS系统相比,L(2)波导具有更高的系统稳定性和灵活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a07c/4607948/2ebdec045358/srep15170-f1.jpg

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