Understanding how molecules interact to form large-scale hierarchical structures on surfaces holds promise for building designer nanoscale constructs with defined chemical and physical properties. Here, we describe early advances in this field and highlight upcoming opportunities and challenges. Both direct intermolecular interactions and those that are mediated by coordinated metal centers or substrates are discussed. These interactions can be additive, but they can also interfere with each other, leading to new assemblies in which electrical potentials vary at distances much larger than those of typical chemical interactions. Earlier spectroscopic and surface measurements have provided partial information on such interfacial effects. In t...
SPM tools have been extensively used in recent years to prepare, characterize and test the structura...
To date, supramolecular chemistry is an ever growing research field owing to its crucial role in mol...
The formation of ordered arrays of molecules via self-assembly is a rapid, scalable route towards th...
Understanding how molecules interact to form large-scale hierarchical structures on surfaces holds p...
ottom-up fabrication of two-dimensional periodic molecular nanostructures has gained extensive atten...
The combination of self-, directed, and positional assembly techniques, i.e., “bottom up” fabricatio...
Nanofabrication requires new methodologies for the assembly of molecular to micrometre-scale objects...
This article discusses different approaches to build up supramolecular nanoarchitectures on surfaces...
International audience2D supramolecular self-assembly has emerged as a powerful tool in nanoscience ...
The ability to pattern surfaces down to the nanoscale is of increasing importance in nanoscience res...
On-surface supramolecular chemistry inspired the fabrication of a large variety of atomically contro...
The self-assembly of large organic adsorbates on solid surfaces is driven by subtle energy balances ...
Employing molecular self-assembly for the fabrication of well-defined nanostructures on solid surfac...
The self-assembly of small organic molecules interacting via non-covalent forces is a viable approac...
The self-assembly of small molecular modules into non-covalently linked polymeric nanostructures is ...
SPM tools have been extensively used in recent years to prepare, characterize and test the structura...
To date, supramolecular chemistry is an ever growing research field owing to its crucial role in mol...
The formation of ordered arrays of molecules via self-assembly is a rapid, scalable route towards th...
Understanding how molecules interact to form large-scale hierarchical structures on surfaces holds p...
ottom-up fabrication of two-dimensional periodic molecular nanostructures has gained extensive atten...
The combination of self-, directed, and positional assembly techniques, i.e., “bottom up” fabricatio...
Nanofabrication requires new methodologies for the assembly of molecular to micrometre-scale objects...
This article discusses different approaches to build up supramolecular nanoarchitectures on surfaces...
International audience2D supramolecular self-assembly has emerged as a powerful tool in nanoscience ...
The ability to pattern surfaces down to the nanoscale is of increasing importance in nanoscience res...
On-surface supramolecular chemistry inspired the fabrication of a large variety of atomically contro...
The self-assembly of large organic adsorbates on solid surfaces is driven by subtle energy balances ...
Employing molecular self-assembly for the fabrication of well-defined nanostructures on solid surfac...
The self-assembly of small organic molecules interacting via non-covalent forces is a viable approac...
The self-assembly of small molecular modules into non-covalently linked polymeric nanostructures is ...
SPM tools have been extensively used in recent years to prepare, characterize and test the structura...
To date, supramolecular chemistry is an ever growing research field owing to its crucial role in mol...
The formation of ordered arrays of molecules via self-assembly is a rapid, scalable route towards th...