2022
DOI: 10.1063/5.0088643
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Effects of biomechanical properties of blood on surface tension-driven flows in superhydrophilic channels

Abstract: Surface tension driven microfluidic flows offer low-cost solutions for blood diagnostics due to the pump-less flow handling. Κnowledge of the influence of the biomechanical properties of blood on such flows is key to design such devices, however a systematic examination of that influence is lacking in the literature. We report on the effects of specific haemorheological factors for flows in a superhydrophilic microchannel. Whole human blood and erythrocyte suspensions in phosphate buffer and Dextran solutions … Show more

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Cited by 6 publications
(1 citation statement)
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“…The geometry of the testing channel was chosen in order to favour the surface tension driven (STD) flow, as described in detail by Pasias et al 2022 [ 25 ]. A high aspect ratio channel (>20 : 1) was adopted, with a converging geometry of 3 degrees inclination for the first part of the channel, followed by a straight section of 2 mm (±0.1 mm) width, which is the imaging area; the effective length of the channel was 35 mm ( Fig.…”
Section: Experimental Methodsmentioning
confidence: 99%
“…The geometry of the testing channel was chosen in order to favour the surface tension driven (STD) flow, as described in detail by Pasias et al 2022 [ 25 ]. A high aspect ratio channel (>20 : 1) was adopted, with a converging geometry of 3 degrees inclination for the first part of the channel, followed by a straight section of 2 mm (±0.1 mm) width, which is the imaging area; the effective length of the channel was 35 mm ( Fig.…”
Section: Experimental Methodsmentioning
confidence: 99%