C
Chanryeol Rhyou
Researcher at Yonsei University
Publications - 5
Citations - 151
Chanryeol Rhyou is an academic researcher from Yonsei University. The author has contributed to research in topics: Acoustic wave & Particle. The author has an hindex of 4, co-authored 5 publications receiving 97 citations.
Papers
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Journal ArticleDOI
High-resolution acoustophoretic 3D cell patterning to construct functional collateral cylindroids for ischemia therapy
Byungjun Kang,Jisoo Shin,Hyun Ji Park,Chanryeol Rhyou,Donyoung Kang,Shin Jeong Lee,Shin Jeong Lee,Young Sup Yoon,Young Sup Yoon,Seung Woo Cho,Hyungsuk Lee +10 more
TL;DR: The authors use surface acoustic waves to create an aligned array of blood vessels in a hyaluronic acid hydrogel and use it to improve function in a mouse hindlimb ischemia model.
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Continuously phase-modulated standing surface acoustic waves for separation of particles and cells in microfluidic channels containing multiple pressure nodes
TL;DR: In this article, a continuous phase-modulated standing surface acoustic wave (CPM-SSAW) is used for particle separation in multiple pressure nodes, where the rate of phase modulation is optimized for separation of target particles from the relationship between mean particle velocity and period of oscillation.
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Continuously Phase-Modulated Standing Surface Acoustic Waves for Separation of Particles and Cells in Microfluidic Channels Containing Multiple Pressure Nodes
TL;DR: In this paper, a continuous phase-modulated standing surface acoustic wave (CPM-SSAW) is used for particle separation in multiple pressure nodes, where the rate of phase modulation is optimized for separation of target particles from the relationship between mean particle velocity and period of oscillation.
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Optimal rate for continuous phase modulation in standing surface acoustic waves
TL;DR: In this article, the maximum marginal value of frequency shift for the linear motion of target particles is defined as an optimal rate at a given condition, and experimentally showed how the optimal rate changes with physical parameters or conditions such as particle size, frequency, and applied voltage.
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Effect of the sound speed mismatch between fluid and channel on the particle alignment in a standing surface acoustic wave device
TL;DR: In this paper, the effect of sound speeds of fluid and channel wall on the pattern of aligned particles is investigated, and the numerical full model capable of analyzing wave propagation in each component of a SSAW device and tracing particles is developed.