Publication | Closed Access
A Spreader-Bar Approach to Molecular Architecture: Formation of Stable Artificial Chemoreceptors
107
Citations
0
References
1999
Year
Combinatorial ChemistrySupramolecular AssemblyEngineeringDodecanethiol MonolayerSurface NanotechnologyComputational ChemistryChemistryMolecular DesignMolecular ComputingSpreader-bar ApproachNew TechniqueBiophysicsNanotechnologyMolecular ArchitecturePharmacologyBiomolecular EngineeringBarbituric AcidSurface FunctionalizationNanomaterialsMolecular SwitchMedicineStable Artificial Chemoreceptors
The destructive influence of lateral diffusion on nanostructured monolayers can be prevented by using the spreader-bar technique. This approach allows the formation of stable artificial receptors for barbituric acid by lateral structuring of a dodecanethiol monolayer with molecular spreader-bars from thiobarbituric acid without chemical polymerization (see schematic representation). The new technique may have applications in chemosensors, affinity chromatography, stereoselective catalysis, and molecular electronics.