Abstract
Synchronization of dynamic elements via chemical communication is a widespread phenomenon in nature and, hence, in many scientific fields, such as in biology, physics and chemistry, where systems capable of giving and receiving information are commonly found. In these systems, coupling and synchronization between elements is achieved by messenger molecules diffusing from one element to others that trigger and spread a chemical reaction. In nature, an important example of chemical communication and synchronicity can be found in cell populations, where the plasma membrane governs the trafficking of ions or molecules (among other mechanisms) into and out of the cells, thus dictating their collective dynamic. Herein, in a biomimetic approach, we used a microfluidic system to confine a “chemical information generator”, consisting of the far-from-equilibrium Belousov–Zhabotinsky (BZ) reaction, in the aqueous core of monodisperse simple emulsion microdroplets. These microdroplets were surrounded by an oil phase ...
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