Abstract
Introduction The fabrication methods and functionalization of lipid tubes are described. The fabrication methods of lipid tubes were classified into three categories, i.e. self-assembly of lipid molecules, microfluidic way to form tubes and stretching of giant v esicles using an electric field. The functionalization of lipid tubes was summarized as metallization and deposition of inor ganic silica onto tube surface, encapsulation of nanoparticles into hollow cylindrical tube of tubular microstructures, and embedding nanoparticles into the wall of lipid tubes to form functional nanocomposites or nanostructures. The applications of these nano- and microstructures are also given. This review gives a brief overview of the interesting field of lipid tubes. Conclusion The fabrication of tubular microstructures demonstrated the precise self-assembly property of lipid molecules. To explore a new universal fabrication method for lipid tubes is still a direction of this field. Templating technology using lipid tubular microstructures is a promising route to make diverse nanostructures. Duo to the high biocompatibility of lipid tubes, they can be designed as drug carriers to encapsulate hydrophilic molecules inside the tube or hydrophobic molecules within the lipid bilay er for drug delivery in biomedical research.
Highlights
The fabrication methods and functionalization of lipid tubes are described
Considering the recent d evelopments and the increasing use of lipid tubes, there is a demand for documenting their preparation methods and their applications
The fabrication methods are categorized according to the driving force for tube formation, i.e. the manner of self-assembly of lipid molecules, the manner in which fluid flows are used, and the manner in which electric fields are used
Summary
The fabrication of tubular microstructures demonstrated the precise self-assembly property of lipid molecules. To explore a new universal fabrication method for lipid tubes is still a direction of this field. Templating technology using lipid tubular microstructures is a promising route to make diverse nanostructures. Mineralization of lipid tube can be applied to fabricate various m etallic and semiconductor nanotubes. Besides the existing elements of lipid tubular modification, it should be possible to decorate these structures with other molecules to exploit particular functionalized microstructures. The recognition ability of lipid molecules enables us to manipulate 1-D nanostructures into 3-D or new super molecular architectures in the near future. The lipid tubular and functional lipid tubular microstructures have a potential application in the field of biomedicine
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