Chien Hsu

TL;DR: An electrophoresis model taking account of the pH-regulated nature of particles and the presence of multiple ionic species is proposed for arbitrary surface potential and double-layer thickness as mentioned in this paper, which successfully simulated the electrophoretic behavior of Fe3O4 nanoparticles in an aqueous NaCl solution with pH adjusted by HCl and NaOH.

TL;DR: In this article, the diffusiophoresis of a particle along the axis of a charged, necked nanopore and the mechanisms involved were studied theoretically for improving the performance of single-molecule nanopore-based biosensors.

TL;DR: The influence of temperature on the electrophoretic behavior of a charge-regulated zwitterionic particle is investigated by considering a spherical SiO(2) particle in a relatively dilute aqueous NaCl solution of concentration C(NaCl) with its pH adjusted by NaOH and HCl as an example.

TL;DR: A thorough numerical simulation is conducted to examine the behavior of a charge-regulated, zwitterionic particle subject to an applied salt concentration gradient under various conditions, and empirical relationships that correlate the scaled particle mobility with key parameters are developed for that purpose.