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Structured Emulgels by Interfacial Assembly of Terpenes and Nanochitin

Xun Niu, Zhangmin Wan, Sameer Mhatre, Yuhang Ye, Yi Lu, Guang Gao, Long Bai, Orlando J. Rojas

2023ACS Nano21 citationsDOI

Abstract

Interfacial assemblies formed by colloidal complexation are effective in multiphase stabilization, as shown in structured liquids and Pickering emulgels. Herein, we demonstrate a type of biobased colloidal system that spontaneously stabilizes an organic phase in a continuous hydrogel phase. Specifically, a triterpene extracted from bark (betulin, BE) is added to an organic phase containing a coniferous resin (rosin acid, a diterpene). BE is shown to take part in strong noncovalent interactions with the nanochitin dispersed in the aqueous (hydrogel) phase, leading to a complex of high interfacial activity. The viscoelastic response of the system is rationalized by the presence of a superstable structured dual network. When used as a templating material, the emulgel develops into structured liquids and cryogels. The herein introduced all-biobased type of nanoparticle surfactant system forms a gel ("emulsion-filled" with "aggregated droplets") that features the functional benefits of both betulin and nanochitin.

Topics & Concepts

BetulinColloidMaterials scienceChemical engineeringPickering emulsionPhase (matter)Pulmonary surfactantAqueous two-phase systemEmulsionAqueous solutionNanotechnologyOrganic chemistryChemistryNanoparticleEngineeringPickering emulsions and particle stabilizationProteins in Food SystemsPolysaccharides and Plant Cell Walls
Structured Emulgels by Interfacial Assembly of Terpenes and Nanochitin | Litcius