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Review article

Nature‐Inspired Design and Application of Lipidic Lyotropic Liquid Crystals

Raffaele MezzengaETH Zurich Department of Health Sciences and Technology Schmelzbergstrasse 9, LFO E23 Zurich 8092 SwitzerlandJohn M. SeddonChemistry Department Imperial College London MSRH Wood Lane London W12 0BZ UKCalum J. DrummondSchool of Science RMIT University GPO Box 2476 Melbourne Victoria 3000 AustraliaBen J. BoydDrug Delivery, Disposition and Dynamics and ARC Centre of Excellence in Convergent Bio‐Nano Science and Technology Monash Institute of Pharmaceutical Sciences Monash University (Parkville Campus) 381 Royal Parade Parkville Victoria 3052 AustraliaGerd E. Schröder‐TurkCollege of Science, Health, Engineering and Education Murdoch University 90 South St Murdoch WA 6150 AustraliaLaurent SagalowiczInstitute of Materials Science Nestlé Research Center CH‐1000 Lausanne 26 Switzerland
2019en
ABI

Abstract

Amphiphilic lipids aggregate in aqueous solution into a variety of structural arrangements. Among the plethora of ordered structures that have been reported, many have also been observed in nature. In addition, due to their unique morphologies, the hydrophilic and hydrophobic domains, very high internal interfacial surface area, and the multitude of possible order-order transitions depending on environmental changes, very promising applications have been developed for these systems in recent years. These include crystallization in inverse bicontinuous cubic phases for membrane protein structure determination, generation of advanced materials, sustained release of bioactive molecules, and control of chemical reactions. The outstanding diverse functionalities of lyotropic liquid crystalline phases found in nature and industry are closely related to the topology, including how their nanoscopic domains are organized. This leads to notable examples of correlation between structure and macroscopic properties, which is itself central to the performance of materials in general. The physical origin of the formation of the known classes of lipidic lyotropic liquid crystalline phases, their structure, and their occurrence in nature are described, and their application in materials science and engineering, biology, medical, and pharmaceutical products, and food science and technology are exemplified.

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