One-Pot Single-Step Approach for the Controlled Synthesis of Multifunctional Microparticles.

Abstract

Multicomponent patchy particles offer unique opportunities for diverse applications, yet their controlled synthesis remains challenging. Here a strategy is presented that allows generating complex microparticles, having distinct patches of different chemical composition, by using a one-pot and single-step approach. The concept is based on the synergetic combination of bipolar electrochemistry and a water/organic (w/o) interface as the reaction space. Positioning conducting microspheres at the w/o interface allows for targeted surface modification with multiple components. Under the influence of an applied electric field, oriented parallel to the interface, simultaneous redox reactions in both phases lead to the selective deposition of up to four different materials at opposite faces of the particles. This very versatile approach can also be extended beyond spherical particles for the controlled modification of 2D materials. The simplicity of the method and the inherent precise control over multiple functional components allows for the design of advanced multicomponent patchy particles, which cannot be obtained by any other deposition process.