Issue 22, 2018

Measurement and mitigation of free convection in microfluidic gradient generators

Abstract

Microfluidic gradient generators are used to study the movement of living cells, lipid vesicles, and colloidal particles in response to spatial variations in their local chemical environment. Such gradient driven motions are often slow (less than 1 μm s−1) and therefore influenced or disrupted by fluid flows accompanying the formation and maintenance of the applied gradient. Even when external flows are carefully eliminated, the solute gradient itself can drive fluid motions due to combinations of gravitational body forces and diffusioosmotic surface forces. Here, we develop a microfluid gradient generator based on the in situ formation of biopolymer membranes and quantify the fluid flows induced by steady solute gradients. The measured velocity profiles agree quantitatively with those predicted by analytical approximations of relevant hydrodynamic models. We discuss how the speed of gradient-driven flows depends on system parameters such as the gradient magnitude, the fluid viscosity, the channel dimensions, and the solute type. These results are useful in identifying and mitigating undesired flows within microfluidic gradient systems.

Graphical abstract: Measurement and mitigation of free convection in microfluidic gradient generators

Supplementary files

Article information

Article type
Paper
Submitted
24 May 2018
Accepted
18 Sep 2018
First published
20 Sep 2018

Lab Chip, 2018,18, 3371-3378

Author version available

Measurement and mitigation of free convection in microfluidic gradient generators

Y. Gu, V. Hegde and K. J. M. Bishop, Lab Chip, 2018, 18, 3371 DOI: 10.1039/C8LC00526E

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