Self-assembled nanocrystal-molecule nanostructures have generated significant research interest in recent years with potential applications in molecular electronics, plasmonics and biosensing. Recently we have developed solution-based processes for assembly of plasmonic nanostructures through controlled mixing of citrate-stabilised gold nanocrystals and molecular linkers with isothiocyanate end groups; see Figure 1a. We term these nanostructures “n-mers”, where n denotes the number of nanocrystals in the structure. Figure 1b shows high-resolution Scanning Electron Microscopy (SEM) images of individual n-mers deposited from solution. Analysis of several hundred SEM images acquired across multiple substrates yields quantitative distributions ...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Self-assembling of nanocrystals involves organization of nanocrystals encapsulated by protective com...
It has long been a wish in nanoscience to manipulate matter at the molecular level. However, current...
Over the past ten years, methods have been developed to construct discrete nanostructures using nano...
The construction of materials from nanocrystal building blocks represents a powerful new paradigm fo...
The construction of materials from nanocrystal building blocks represents a powerful new paradigm fo...
Over the past ten years, methods have been developed to construct discrete nanostructures using nan...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Self-assembling of nanocrystals involves organization of nanocrystals encapsulated by protective com...
It has long been a wish in nanoscience to manipulate matter at the molecular level. However, current...
Over the past ten years, methods have been developed to construct discrete nanostructures using nano...
The construction of materials from nanocrystal building blocks represents a powerful new paradigm fo...
The construction of materials from nanocrystal building blocks represents a powerful new paradigm fo...
Over the past ten years, methods have been developed to construct discrete nanostructures using nan...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Solution-phase self-assembly of nanocrystals into mesoscale structures is a promising strategy for c...
Development of methodologies for the controlled chemical assembly of nanoparticles into plasmonic mo...
Self-assembling of nanocrystals involves organization of nanocrystals encapsulated by protective com...
It has long been a wish in nanoscience to manipulate matter at the molecular level. However, current...