Ion-Specific Gelation and Internal Dynamics of Nanocellulose Biocompatible Hybrid Hydrogels: Insights from Fluctuation Analysis

Hydrogels find widespread use in bioapplications for their ability to retain large amounts of water while maintaining structural integrity. In this article we investigate hybrid hydrogels made of nanocellulose and either amino-polyethylenglycol or sodium alginates and we demonstrate two novel results: 1) the biocompatibility of the amino containing hybrid gel synthesized using a simplified receipt that does not require any intermediate synthetic step to functionalize either components and 2) the fact that the fluctuation of the 2nd order correlation function of a Dynamic Light Scattering experiment provides relevant information about the characteristic internal dynamic of the materials across the entire sol-gel transition as well as quantitative information about the ion-specific gel formation. This novel approach offers significantly better temporal (10’s μs) and spatial (10’s μm) resolution than many other state-of-the-art techniques commonly used for such analyses (such as rheometry, SAXS, and NMR) and it might find widespread application in the characterization of the nano to microscale dynamics in soft materials.