Self-assembled organic nanotubes made of single or multiple molecular components can be
classified into soft-matter nanotubes (SMNTs) by contrast with hard-matter nanotubes, such …

Organic nanotubes (ONTs) are tubular nanostructures prepared from small organic
molecules or macromolecules. These structures have attracted growing attention because …

Although a large number of studies on organic nanotubes have focused on the molecular
design of building blocks and their material function, there has been little research that has …

Tubular organic nanostructures offering precise control over inner and outer surface
functionality represent attractive building blocks for the bottom-up approach in …

Hollow tubular structures of molecular dimensions perform diverse biological functions in
nature. Examples include scaffolding and packaging roles played by cytoskeletal …

The field of nanotubes is undergoing an explosive growth, fueled by brakethroughs in
synthesis and the promise of unique applications. Highly unusual properties and devices …

Size, Shape, and Synthesis Key toTuning Properties The discovery and rapid evolution of
carbon nanotubes have led to a vastly improved understanding of nanotechnology, as well …

Carbon nanotubes, and synthetic organic nanotubes more generally, have in recent
decades been widely explored for application in electronic devices, energy storage …

Not only amphiphiles but also non-amphiphilic or π–conjugated molecules, if rationally
designed, have been found to self-assemble in liquid media to form discrete tubular …

Synthetic tubular architectures are of broad interest in the fields of materials science,
nanotechnology, molecular sieves, ion sensors, and fluidic transport systems. Inorganic …