Dick Henze

TL;DR: In this paper, the authors developed a highly accurate compact dynamical model for their electrical conduction that showed that the negative differential resistance in these devices results from a thermal feedback mechanism, which can be minimized by thermally isolating the selector or by incorporating materials with larger activation energies for electron motion.

TL;DR: Investigating the effect of surfactant structure on reverse micelle size and charging properties by synthesizing different surfactants with variations in polyamine polar head groups showed that the absence of amine in the Surfactant head was detrimental to particle stabilization and device performance.

TL;DR: In this article, a novel architecture and proprietary electrically addressable inks have been developed to provide disruptive, print-like full color reflective digital media solutions based on an electrokinetic technology platform.

TL;DR: In this article, a double liftoff procedure was used to transfer polystyrene nanospheres to a silver particle array on an arbitrary substrate, achieving tunable control over the final metal particle diameter and spacing in the range of 50-150 nm and 100-200 nm.

TL;DR: A novel architecture and proprietary electronic inks were developed to provide disruptive digital-media solutions based on an electrokinetic technology platform that enable low power, transparency, print-quality color, continuous levels of gray, and low-cost scalability for flexible reflective electronic media.