Journal article
A self-sufficient micro-droplet generation system using highly porous elastomeric sponges: A versatile tool for conducting cellular assays
P Thurgood, S Baratchi, C Szydzik, JY Zhu, S Nahavandi, A Mitchell, K Khoshmanesh
Sensors and Actuators B Chemical | ELSEVIER SCIENCE SA | Published : 2018
Abstract
Here, we present a self-sufficient droplet generation system using a highly porous elastomeric sponge. Upon manual compression, aqueous solutions can be loaded into or unloaded from the sponge. The surface of the sponge accommodates hundreds of small orifices, which facilitate generation of microscale droplets when compressed inside an oil container. The physics underlying the generation and size distribution of droplets is explored. Proof-of-concept experiments demonstrate the capability of this method for encapsulation of human monocytes inside droplets. The droplets are chemically isolated, mechanically stable, and do not evaporate due to the presence of oil in the microwell. The cells se..
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Grants
Awarded by Australian Research Council
Funding Acknowledgements
Authors acknowledge the RMIT Micro Nano Research Facilities (MNRF) for fabrication of the sponge, and the RMIT Microscopy and Microanalysis Facility (RMMF) for scanning electron microscopy characterisation of PDMS sponges. S.B. Acknowledges Australian Research Council for funding under discovery for early career researcher award, DECRA DE170100239. K.K. acknowledges Australian Research Council for funding under discovery projects DP170102138 and DP180102049.