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© Borovsky & University of Jyväskylä, 2018.
A comparation of two designs of a droplet trap. While the droplet exchange is mediated by direct droplet contact in the symmetric design, a short continuous phase plug mediated the droplet exchange in the asymmetric design.
PublisherUniversity of Jyväskylä
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- Tutkimusdata 
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M12_Microfluidics_for_CNT Borovsky, Jan (University of Jyväskylä, 2018)The droplets exchanging in the trap causes visible scattering of the laser beam focused on the droplet. The obvious change of laser light intensity can be used for detection of droplet exchange.
M11_Microfluidics_for_CNT Borovsky, Jan (University of Jyväskylä, 2018)The subtle solubility of water in n-decane causes leaking of the droplet content. If the n-decane flows by static droplets, it carries the water slowly away up to the total disappearance of the droplets.
M4_Microfluidics_for_CNT Borovsky, Jan (University of Jyväskylä, 2018)Size and frequency of the droplets produced in T-junction as a function of continuous and disperse phase pressure ratio.
M6_Microfluidics_for_CNT Borovsky, Jan (University of Jyväskylä, 2018)The hydrodynamic trap holds an incoming droplet until the arrival of following droplet. The previous droplet leaves the trap in very rapid manner.
M10_Microfluidics_for_CNT Borovsky, Jan (University of Jyväskylä, 2018)Droplets are preferentially directed to the channel with higher flow rate in the passive sorting junction. When the droplets are exposed to DEP field, the DEP force pull them to the narrower channel.