The ability to pattern surfaces down to the nanoscale is of increasing importance in nanoscience research. The use of supramolecular chemistry to drive the formation of self-assembled networks allows for a bottom-up approach to achieve nanopatterned surfaces. This short review highlights some of the recent breakthroughs in achieving long-range order in such molecular based systems, complemented with examples from our own work. The tuning of molecular architectures can exert control on the emergent properties and function of molecules at interfaces. In particular the formation of porous honeycomb networks allows the rational design of highly ordered patterned surface domains and the investigation of molecular dynamics, chirality and templati...
ottom-up fabrication of two-dimensional periodic molecular nanostructures has gained extensive atten...
Self-assembly techniques allow for the fabrication of highly organized architectures with atomic-lev...
The self-assembly of small molecular modules into non-covalently linked polymeric nanostructures is ...
The ability to pattern surfaces down to the nanoscale is of increasing importance in nanoscience res...
Understanding how molecules interact to form large-scale hierarchical structures on surfaces holds p...
Understanding how molecules interact to form large-scale hierarchical structures on surfaces holds p...
Active research of supramolecular chemistry on surfaces started together with the invention of the s...
Functional molecules, among them artificial rotors, motors or gears, have been extensively studied o...
International audience2D supramolecular self-assembly has emerged as a powerful tool in nanoscience ...
The focus of the research that has been conducted for this report describes progress made (1) toward...
Nanofabrication requires new methodologies for the assembly of molecular to micrometre-scale objects...
Self-organization is a promising method within the framework of bottom-up architectures to generate ...
International audienceIn view of the many potential applications for functional hybrid interfaces, t...
We present a systematic study of metal−organic honeycomb lattices assembled from simple ditopic mole...
The development of science and technology of advanced materials using nanoscale units can be conduct...
ottom-up fabrication of two-dimensional periodic molecular nanostructures has gained extensive atten...
Self-assembly techniques allow for the fabrication of highly organized architectures with atomic-lev...
The self-assembly of small molecular modules into non-covalently linked polymeric nanostructures is ...
The ability to pattern surfaces down to the nanoscale is of increasing importance in nanoscience res...
Understanding how molecules interact to form large-scale hierarchical structures on surfaces holds p...
Understanding how molecules interact to form large-scale hierarchical structures on surfaces holds p...
Active research of supramolecular chemistry on surfaces started together with the invention of the s...
Functional molecules, among them artificial rotors, motors or gears, have been extensively studied o...
International audience2D supramolecular self-assembly has emerged as a powerful tool in nanoscience ...
The focus of the research that has been conducted for this report describes progress made (1) toward...
Nanofabrication requires new methodologies for the assembly of molecular to micrometre-scale objects...
Self-organization is a promising method within the framework of bottom-up architectures to generate ...
International audienceIn view of the many potential applications for functional hybrid interfaces, t...
We present a systematic study of metal−organic honeycomb lattices assembled from simple ditopic mole...
The development of science and technology of advanced materials using nanoscale units can be conduct...
ottom-up fabrication of two-dimensional periodic molecular nanostructures has gained extensive atten...
Self-assembly techniques allow for the fabrication of highly organized architectures with atomic-lev...
The self-assembly of small molecular modules into non-covalently linked polymeric nanostructures is ...