Esmail Pishbin scite author profile

The flow of liquids in centrifugal microfluidics is unidirectional and dominated by centrifugal and Coriolis forces (i.e., effective only at T-junctions). Developing mechanisms and discovering efficient techniques to propel liquids in any direction other than the direction of the centrifugal force has been the subject of a large number of studies. The capillary force attained by specific surface treatments, pneumatic energy, active and passive flow reciprocation and Euler force have been previously introduced in order to manipulate the liquid flow and push it against the centrifugal force. Here, as a new method, the moment of inertia of the liquid inside a chamber in a centrifugal microfluidic platform is employed to manipulate the flow and propel the liquid passively towards the disc center. Furthermore, the effect of the moment of inertia on the liquid in a rectangular chamber is evaluated, both in theory and experiments, and the optimum geometry is defined. As an application of the introduced method, the moment of inertia of the liquid is used in order to mix two different dyed deionized (DI) waters; the mixing efficiency is evaluated and compared to similar mixing techniques. The results show the potential of the presented method for pumping liquids radially inward with relatively high flow rates (up to 23 mm3/s) and also efficient mixing in centrifugal microfluidic platforms.

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Localized air-mediated heating method for isothermal and rapid thermal processing on lab-on-a-disk platforms

Pishbin

Eghbal

Navidbakhsh

et al. 2019

Sensors and Actuators B: Chemical

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Implementing series of dual-chamber units for sequential loading of the liquids in centrifugal microfluidic platforms

Fakhari

Pishbin

Navibakhsh

et al. 2019

Microfluid Nanofluid

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Esmail Pishbin

Integrated microfluidic system for efficient DNA extraction using on-disk magnetic stirrer micromixer

The Effect of Moment of Inertia on the Liquids in Centrifugal Microfluidics

Localized air-mediated heating method for isothermal and rapid thermal processing on lab-on-a-disk platforms

Implementing series of dual-chamber units for sequential loading of the liquids in centrifugal microfluidic platforms

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