English

Shape-dependence of electrophoretic mobility

Fluid Dynamics 2026-04-24 v2 Chemical Physics

Abstract

The electrophoretic mobility of a spherical particle is well understood, yet how particle shape modifies this mobility at arbitrary Debye length remains an open question. Here, we compute the electrophoretic mobility of a nearly spherical particle whose surface is described by rs(θ)=a[1+εf(θ)]r_s(\theta) = a[1 + \varepsilon f(\theta)], with ε1\varepsilon \ll 1, at arbitrary ratio of particle size to Debye length κa\kappa a. Using a volume-integral formulation combined with domain perturbation techniques, we derive a universal shape correction coefficient σ2(κa)\sigma_2(\kappa a) such that the mobility takes the compact form C=fH(κa)[1+εc2σ2(κa)]C_\parallel = f_H(\kappa a)\,[1 + \varepsilon\,c_2\,\sigma_2(\kappa a)], where fHf_H is Henry's function. We show that σ2\sigma_2 interpolates between +1/5+1/5 in the thick-double-layer (H\"{u}ckel) limit, governed solely by the Stokes drag correction, and zero in the thin-double-layer (Smoluchowski) limit, recovering the classical shape-independence theorem. The perturbation theory agrees quantitatively with exact spheroid solutions for both prolate and oblate orientations. A key finding is that only the P2P_2 (quadrupolar) component of the particle shape affects the mobility at leading order; higher harmonics are electrophoretically silent due to angular selection rules governing the coupling between the dipolar applied field and the shape perturbation. The results in this paper were generated using Claude Code (Anthropic, Opus 4.6 model) with supervision from the authors. Our thoughts on the usage of AI for theoretical research, along with representative prompts from the development process, are provided in the manuscript and Appendix.

Keywords

Cite

@article{arxiv.2604.11771,
  title  = {Shape-dependence of electrophoretic mobility},
  author = {Arkava Ganguly and Ankur Gupta},
  journal= {arXiv preprint arXiv:2604.11771},
  year   = {2026}
}

Comments

29 pages, 7 figures, appendix includes representative prompts made to Claude, supplementary info includes codes generated by Claude

R2 v1 2026-07-01T12:07:00.608Z