Durotaxis and antidurotaxis motion on gradient substrates

ORAL

Abstract

By means of molecular dynamics simulation of a coarse-grained model, we explored the possibilities of causing the spontaneous motion of droplets onto brush and gel substrates with stiffness gradient, either in the direction of the gradient (durotaxis) or in the opposite direction (antidurotaxis). A detailed analysis of the driving force for durotaxis and antidurotaxis phenomena and an in-depth exploration of the relevant parameters are performed. We anticipate that our studies provide insights into the self-sustained motion of fluids onto gradient substrates with stiffness gradient and motivate further experimental research in this area.

*This research has been supported by the National Science Centre, Poland, under grant No. 2019/35/B/ST3/03426. We gratefully acknowledge Polish high-performance computing infrastructure PLGrid (HPC Centers: ACK Cyfronet AGH) for providing computer facilities and support within computational grant no. PLG/2023/016607.

Publication: https://pubs.acs.org/doi/full/10.1021/acs.langmuir.2c03381
https://pubs.acs.org/doi/full/10.1021/acs.langmuir.3c01999
publication on gel gradient substate just accepted in Langmuir

Presenters

  • Panagiotis E Theodorakis

    • Institute of Physics, Polish Academy of Sciences

Authors

  • Panagiotis E Theodorakis

    • Institute of Physics, Polish Academy of Sciences

  • Russell Kajouri

    • Institute of Physics, Polish Academy of Sciences

  • Piotr Deuar

    • Institute of Physics, Polish Academy of Sciences

  • Rachid Bennacer

    • ENS Paris-Saclay

  • Jan Zidek

    • CEITEC

  • Sergei Egorov

    • University of Virginia

  • Andrey Milchev

    • Institute of Physical Chemistry, Bulgarian Academy of Sciences