Affiliation:
1. Institute of Molecular Biosciences University of Graz, NAWI Graz Graz 8010 Austria
2. Field of Excellence BioHealth University of Graz Graz 8010 Austria
Abstract
AbstractBicontinuous cubic phases offer advantageous routes to a broad range of applied materials ranging from drug delivery devices to membranes. However, a priori design of molecules that assemble into these phases remains a technological challenge. In this article, a high‐throughput synthesis of lipidoids that undergo protonation‐driven self‐assembly (PrSA) into liquid crystalline (LC) phases is conducted. With this screening approach, 12 different multi‐tail lipidoid structures capable of assembling into the bicontinuous double gyroid phase are discovered. The large volume of small‐angle X‐ray scattering (SAXS) data uncovers unexpected design criteria that enable phase selection as a function of lipidoid headgroup size and architecture, tail length and architecture, and counterion identity. Surprisingly, combining branched headgroups with bulky tails forces lipidoids to adopt unconventional pseudo‐disc conformations that pack into double gyroid networks, entirely distinct from other synthetic or biological amphiphiles within bicontinuous cubic phases. From a multitude of possible applications, two examples of functional materials from lipidoid liquid crystals are demonstrated. First, the fabrication of gyroid nanostructured films by interfacial PrSA, which are rapidly responsive to the external medium. Second, it is shown that colloidally‐dispersed lipidoid cubosomes, for example, for drug delivery, are easily assembled using top‐down solvent evaporation methods.
Funder
Österreichische Forschungsförderungsgesellschaft
Subject
Biomaterials,Biotechnology,General Materials Science,General Chemistry
Cited by
4 articles.
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