Fabrication of core–shell beads, hollow capsules, and AuNP-embedded catalytic beads from an ultrasmall peptide hydrogel

Abstract

Hydrogel beads have emerged as a new class of soft materials that infuse the noble properties of macro-dimensional hydrogels in tiny, easily operable, and robust droplets. Usually, polymeric hydrogels are used in the production of hydrogel beads due to their high structural rigidity and durability, and low molecular weight hydrogel beads are relatively uncommon. Herein, we employed an ultra-short peptide (Pyrene-Lys-Cys, PyKC) based low molecular weight injectable hydrogel, that remains insoluble in bulk solvents, to create stable hydrogel beads using a simple extrusion technique. To enhance durability and applicability, the beads are coated with a polymeric shell, resulting in a core–shell configuration. The shell of the core–shell beads can be modified through a variety of organic conjugation reactions. Also, the core (hydrogel) can be sacrificed using DMSO, resulting in the formation of hollow organic capsules. Furthermore, the core–shell beads enabled the in-situ synthesis and stabilization of gold nanoparticles on the bead surface. The gold-loaded beads demonstrated remarkable catalytic efficiency in the reduction of p-nitrophenol and hazardous azo dyes. In a nutshell, the extremely modular and customizable nature of the PyKC-based core–shell hydrogel bead may allow it to function as a unified platform for multifaceted applications.