Issue 11, 2015
From the journal:

Lab on a Chip

Continuous transfer of liquid metal droplets across a fluid–fluid interface within an integrated microfluidic chip

Berrak Gol,*a   Francisco J. Tovar-Lopez,a   Michael E. Kurdzinski,a   Shi-Yang Tang,a   Phred Petersen,b   Arnan Mitchell*a  and  Khashayar Khoshmanesha  

* Corresponding authors

a School of Electrical and Computer Engineering, RMIT University, Australia
E-mail: Berrak.gol@gmail.com, Arnan.mitchell@rmit.edu.au, Khashayar.khoshmanesh@rmit.edu.au

b School of Media and Communication, RMIT University, Australia

Abstract

Micro scale liquid metal droplets have been hailed as the potential key building blocks of future micro-electro-mechanical systems (MEMS). However, most of the current liquid metal enabled systems involve millimeter scale droplets, which are manually injected onto the desired locations of the microchip. Despite its simplicity, this method is impractical for patterning large arrays or complex systems based on micro scale droplets. Here, we present a microfluidic chip, which integrates continuous generation of micro scale galinstan droplets in glycerol, and the hydrodynamic transfer of these droplets into sodium hydroxide (NaOH) solution. Observation via high-speed imaging along with computational fluid dynamics (CFD) analysis are utilised to comprehend the lateral migration of droplets from the glycerol to NaOH fluid. This platform is simple, can be readily integrated into other microfluidic systems, and creates flexibility by separating the continuous phase for droplet generation from the eventual target carrier fluid within a monolithic chip.

Graphical abstract: Continuous transfer of liquid metal droplets across a fluid–fluid interface within an integrated microfluidic chip

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Article information

DOI
https://doi.org/10.1039/C5LC00415B
Article type
Paper
Submitted
08 Apr 2015
Accepted
29 Apr 2015
First published
30 Apr 2015

Lab Chip, 2015,15, 2476-2485

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Continuous transfer of liquid metal droplets across a fluid–fluid interface within an integrated microfluidic chip

B. Gol, F. J. Tovar-Lopez, M. E. Kurdzinski, S. Tang, P. Petersen, A. Mitchell and K. Khoshmanesh, Lab Chip, 2015, 15, 2476 DOI: 10.1039/C5LC00415B

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