Cellulose ionogels, a perspective of the last decade: A review

Cellulose ionogels have been extensively studied due to the variability of their properties and applications. The capability of trapping an ionic liquid in a biodegradable solid matrix without losing its properties makes this type of material a promising substitute for fossil fuel-derived materials. The possibility to formulate ionogels chem-ically or physically, to choose between different ionic liquids, cellulose types, and the possibility to add a wide range of additives, make these ionogels an adaptable material that can be modified for each target application in many fields such as medicine, energy storage, electrochemistry, etc. The aim of this review is to show its versatility and to provide a summary picture of the advances in the field of cellulose ionogels formulation (chemical or physical methods), as well as their potential applications, so this review will serve as a stimulus for research on these materials in the future.

Automated summary

Cellulose ionogels are extensively studied for their versatile properties and wide-ranging applications. The ability to encapsulate an ionic liquid in a biodegradable matrix makes it a promising alternative to fossil fuel-derived materials. The flexibility in formulation, choice of additives, and different cellulose types allow for customization for specific applications in various fields.