Self‐Assembled Molecular Fibers Aligned by Compression in Water

Abstract

AbstractMolecular self‐assembly has attracted much attention as a potential approach for fabricating nanostructured functional materials. To date, energy‐efficient fabrication of nano‐objects such as nanofibers, nanorings, and nanotubes is achieved using well‐designed self‐assembling molecules. However, the application of molecular self‐assembly to industrial manufacturing processes remains challenging because regulating the positions and directions of self‐assembled products is difficult. Non‐covalent molecular assemblies are also too fragile to allow mechanical handling. The present work demonstrates the macroscopic alignment of self‐assembled molecular fibers using compression. Specifically, the macroscopic bundling of self‐assembled nanofibers is achieved following dispersion in water. These fiber bundles can also be chemically crosslinked without drastic changes in morphology via trialkoxysilyl groups. Subsequently, vertically oriented porous membranes can be produced rapidly by slicing the bundles. This technique is expected to be applicable to various functional self‐assembled fibers and can lead to the development of innovative methods of producing anisotropic nanostructured materials.