This letter investigates electrophoretic molecular communication (EMC) operating in circular duct channels. EMC utilizes the time-varying electrophoretic force that can controllably induce the movement of charged particles to enhance communication …
Droplets impacting dry solid substrates often splash above a certain threshold impact velocity. We *hypothesise* that substrate curvature alters splashing thresholds due to a modification to the lift force acting on the lamella at the point of …
This article investigates a novel electrophoretic molecular communication mechanism that utilizes a time-varying electric field, which induces time-varying molecule velocities and in turn improves communication performance. For a sinusoidal field, we …