Shuichi Takayama
Georgia Institute of Technology
394 Papers
4.1K Citations
Shuichi Takayama is an academic researcher from Georgia Institute of Technology. The author has contributed to research in topics: Medicine & Biology. The author has an hindex of 77, co-authored 361 publications. Previous affiliations of Shuichi Takayama include Parker H. Petit Institute for Bioengineering & Bioscience & Ulsan National Institute of Science and Technology.
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Papers
Reversible switching of high-speed air-liquid two-phase flows using electrowetting-assisted flow-pattern change.
Dongeun Huh,Dongeun Huh,Alan H. Tkaczyk,Joong Hwan Bahng,Yu Chang,Hsien Hung Wei,J. B. Grotberg,Chang-Jin Kim,Katsuo Kurabayashi,Shuichi Takayama +9 more
TL;DR: This work is the first demonstration of electrical modulation of surface energy to reversibly switch dynamic high-speed gas-liquid two-phase microfluidic flow patterns, and offers new opportunities for the development of two- phase biochemical microsystems that are mechanically simple and operational at high speeds.
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Budding-like division of all-aqueous emulsion droplets modulated by networks of protein nanofibrils
Yang Song,Yang Song,Thomas C. T. Michaels,Thomas C. T. Michaels,Qingming Ma,Zhou Liu,Hao Yuan,Shuichi Takayama,Tuomas P. J. Knowles,Ho Cheung Shum +9 more
TL;DR: It is demonstrated that artificial networks of protein nanofibrils can induce controlled deformation and division of all-aqueous emulsion droplets with budding-like morphologies and that this method can be used to control the morphology of microparticles during biomaterial preparation.
Optical imaging in microfluidic bioreactors enables oxygen monitoring for continuous cell culture
TL;DR: The fluorescence lifetime-based imaging approach described avoids intensity-based artifacts (including photobleaching and concentration variations) and provides a technique with high spatial discrimination for oxygen monitoring in continuous cell culture systems.
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Application of microfluidic technologies to human assisted reproduction.
Gary D. Smith,Shuichi Takayama +1 more
TL;DR: Data from clinical trials are requisite for making future evidence-based decisions regarding the application of microfluidics in human ART.
Next-generation integrated microfluidic circuits
Bobak Mosadegh,Tommaso F. Bersano-Begey,Joong Yull Park,Mark A. Burns,Shuichi Takayama,Shuichi Takayama +5 more
TL;DR: This mini-review provides a brief overview of recent devices that use networks of elastomeric valves to minimize or eliminate the need for interconnections between microfluidic chips and external instruction lines that send flow control signals.
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