Add to ORKGOrganic nanotubes are desirable for their wide array of applications. We show here experimental efforts toward the modular construction of organic nanotubes, in which nanotubes of controlled size and chemical functionality were attempted through dynamic covalent chemistry (imine metathesis) and living polymerization (ring opening metathesis polymerization). The methods explored here outline several key concepts that are believed to be essential to the covalent assembly of organic nanotubes
Discrete nanoscale tubular architectures currently receive a great deal of attention because of thei...
In organic synthesis, the composition and structure of products are predetermined by the reaction co...
Carbon nanotubes are used daily for many applications such as support for automotive parts, water fi...
The design and synthesis of hollow tubular, functional nanostructures with controlled dimensions and...
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...
Because of their wide number of biological functions and potential applications, self-assembled nano...
An amphiphile molecule designed to be a light-induced switch, was found to form self-assembled, stab...
International audienceCOF nanotubes in the form of a stack of plates with a hollow channel have been...
Nanotubes assembled from macrocyclic precursors offer a unique combination of low dimensionality, st...
Tubular materials formed by self-assembly of small organic molecules find great utility in chemical ...
Ever since the discovery of carbon nanotubes, several strategies have been developed for the synthes...
THESIS 8275Single walled carbon nanotubes (SWNTs) possess unique structural, mechanical and electron...
Tubular-shaped chromophores have great potential in chemical and material sciences. A naphthalene-co...
Tubular materials formed by self-assembly of small organic molecules find great utility in chemical ...
The controllable assembly of materials on the atomic or molecular level remains one of the grand cha...
Discrete nanoscale tubular architectures currently receive a great deal of attention because of thei...
In organic synthesis, the composition and structure of products are predetermined by the reaction co...
Carbon nanotubes are used daily for many applications such as support for automotive parts, water fi...
The design and synthesis of hollow tubular, functional nanostructures with controlled dimensions and...
This document is the Accepted Manuscript version of a Published Work that appeared in final form in ...
Because of their wide number of biological functions and potential applications, self-assembled nano...
An amphiphile molecule designed to be a light-induced switch, was found to form self-assembled, stab...
International audienceCOF nanotubes in the form of a stack of plates with a hollow channel have been...
Nanotubes assembled from macrocyclic precursors offer a unique combination of low dimensionality, st...
Tubular materials formed by self-assembly of small organic molecules find great utility in chemical ...
Ever since the discovery of carbon nanotubes, several strategies have been developed for the synthes...
THESIS 8275Single walled carbon nanotubes (SWNTs) possess unique structural, mechanical and electron...
Tubular-shaped chromophores have great potential in chemical and material sciences. A naphthalene-co...
Tubular materials formed by self-assembly of small organic molecules find great utility in chemical ...
The controllable assembly of materials on the atomic or molecular level remains one of the grand cha...
Discrete nanoscale tubular architectures currently receive a great deal of attention because of thei...
In organic synthesis, the composition and structure of products are predetermined by the reaction co...
Carbon nanotubes are used daily for many applications such as support for automotive parts, water fi...