Antidurotaxis Droplet Motion onto Gradient Brush Substrates

journal article in Web of Science

English

Durotaxis motion is a spectacular phenomenon manifesting itself by the autonomous motion of a nano-object between parts of a substrate with different stiffness. This motion usually takes place along a stiffness gradient from softer to stiffer parts of the substrate. Here, we propose a new design of a polymer brush substrate that demonstrates antidurotaxis droplet motion, that is, droplet motion from stiffer to softer parts of the substrate. By carrying out extensive molecular dynamics simulation of a coarse-grained model, we find that antidurotaxis is solely controlled by the gradient in the grafting density of the brush and is favorable for fluids with a strong attraction to the substrate (low surface energy). The driving force of the antidurotaxial motion is the minimization of the droplet-substrate interfacial energy, which is attributed to the penetration of the droplet into the brush. Thus, we anticipate that the proposed substrate design offers a new understanding and possibilities in the area of autonomous motion of droplets for applications in microfluidics, energy conservation, and biology.

TRANSPORT; SURFACES; DRIVEN; MASS; DUROTAXIS; GRAPHENE

KAJOURI, R.; THEODORAKIS, P.; ŽÍDEK, J.; MILCHEV, A.

6. 9. 2023

American Chemical Society

WASHINGTON

1520-5827

Langmuir

39

43

United States of America

15285

15296

12

https://pubs.acs.org/doi/10.1021/acs.langmuir.3c01999

http://hdl.handle.net/11012/245068