English

Designing stimulus-sensitive colloidal walkers

Soft Condensed Matter 2014-02-11 v1

Abstract

Colloidal particles with DNA `legs' that can bind reversibly to receptors on a surface can be made to `walk' if there is a gradient in receptor concentration. We use a combination of theory and Monte Carlo simulations to explore how controllable parameters, e.g. coating density and binding strength, affect the dynamics of such colloids. We find that competition between thermodynamic and kinetic trends imply that there is an optimal value for both, the binding strength and the number of `legs' for which transport is fastest. Using available thermodynamic data on DNA binding, we indicate how directionally reversible, temperature-controlled transport of colloidal walkers can be achieved. In particular, the present results should make it possible to design a chromatographic technique that can be used to separate colloids with different DNA functionalization.

Keywords

Cite

@article{arxiv.1402.1928,
  title  = {Designing stimulus-sensitive colloidal walkers},
  author = {Francisco J. Martinez-Veracoechea and Bortolo M. Mognetti and Stefano Angioletti-Uberti and Patrick Varilly and Daan Frenkel and Jure Dobnikar},
  journal= {arXiv preprint arXiv:1402.1928},
  year   = {2014}
}

Comments

to appear in Soft Matter

R2 v1 2026-06-22T03:04:15.914Z