Add to ORKGOne of the main reasons for the current interest in colloidal nanocrystals is their propensity to form superlattices, systems in which (different) nanocrystals are in close contact in a well-ordered three-dimensional (3D) geometry resulting in novel material properties. However, the principles underlying the formation of binary nanocrystal superlattices are not well understood. Here, we present a study of the driving forces for the formation of binary nanocrystal superlattices by comparing the formed structures with full free energy calculations. The nature (metallic or semiconducting) and the size-ratio of the two nanocrystals are varied systematically. With semiconductor nanocrystals, self-organization at high temperature leads to superla...
Synthesis of nanocrystals yields polydisperse distributions, which not only implies a distribution o...
Nanocrystalline solids have become the subject of intense study due to their unique optical properti...
The colloidal nanocrystals (NCs) are nanometer-sized inorganic particles with distinctive properties...
Formation of binary superlattices (BNSLs) from colloidal nanocrystals (NCs) by self-assembly is a pr...
Colloidal crystallisation is the only way to obtain three-dimensional ordered materials in which sem...
The self-assembly of two sizes of spherical nanocrystals has revealed a surprisingly diverse library...
A mixture of two dissimilar species (A and B) may freeze to form a substitutionally ordered crystal,...
International audienceHere, it is shown that binary superlattices of Co/Ag nanocrystals with the sam...
In this paper we show that self-organization of colloidal PbSe and CdSe semiconductor nanocrystals w...
Self-assembled binary nanocrystal superlattices (BNSLs) represent a versatile bottom-up approach tow...
honors thesisCollege of ScienceChemistryMichael H. BartlThis thesis provides a platform to experimen...
Here, it is shown that binary superlattices of Co/Ag nanocrystals with the same size, surface coatin...
We report a detailed experimental study of the superlattice structures formed in dense binary mixtur...
Solvent–ligand interactions in colloidal nanocrystals are of significant importance as they can be u...
The following work introduces a novel approach for shape and size control of semiconductor nanocryst...
Synthesis of nanocrystals yields polydisperse distributions, which not only implies a distribution o...
Nanocrystalline solids have become the subject of intense study due to their unique optical properti...
The colloidal nanocrystals (NCs) are nanometer-sized inorganic particles with distinctive properties...
Formation of binary superlattices (BNSLs) from colloidal nanocrystals (NCs) by self-assembly is a pr...
Colloidal crystallisation is the only way to obtain three-dimensional ordered materials in which sem...
The self-assembly of two sizes of spherical nanocrystals has revealed a surprisingly diverse library...
A mixture of two dissimilar species (A and B) may freeze to form a substitutionally ordered crystal,...
International audienceHere, it is shown that binary superlattices of Co/Ag nanocrystals with the sam...
In this paper we show that self-organization of colloidal PbSe and CdSe semiconductor nanocrystals w...
Self-assembled binary nanocrystal superlattices (BNSLs) represent a versatile bottom-up approach tow...
honors thesisCollege of ScienceChemistryMichael H. BartlThis thesis provides a platform to experimen...
Here, it is shown that binary superlattices of Co/Ag nanocrystals with the same size, surface coatin...
We report a detailed experimental study of the superlattice structures formed in dense binary mixtur...
Solvent–ligand interactions in colloidal nanocrystals are of significant importance as they can be u...
The following work introduces a novel approach for shape and size control of semiconductor nanocryst...
Synthesis of nanocrystals yields polydisperse distributions, which not only implies a distribution o...
Nanocrystalline solids have become the subject of intense study due to their unique optical properti...
The colloidal nanocrystals (NCs) are nanometer-sized inorganic particles with distinctive properties...