AI Article Synopsis
- Heterostructured quantum dots (hetero-QDs) are effective for optoelectronic devices due to their excellent optical properties and stability.
- A two-step synthesis method was used to create CuInSeS/CdSeS/CdS hetero-QDs, which were characterized using high-resolution transmission electron microscopy.
- The study revealed that these hetero-QDs have a tetrahedral shape and specific epitaxial relationships, with defects that can be repaired through electron beam irradiation, aiding in the creation of high-quality hetero-QDs.
Article Abstract
Heterostructured quantum dots (hetero-QDs) have outstanding optical properties and chemical/photostability, which make them promising building blocks for use in various optoelectronic devices. Here, CuInSeS/CdSeS/CdS hetero-QDs were synthesized through a facile two-step method. Their particle size, three-dimensional (3D) shapes and the epitaxial relationship between the CuInSeS/CdSeS core and CdS shell were investigated by high-resolution transmission electron microscopy (HRTEM). Our investigation proves that the as-synthesized hetero-QDs have a regular tetrahedron 3D shape with four {111} crystal facets. The epitaxial relationship between the CuInSeS/CdSeS core and CdS shell is determined to be [110]//[110], {112}//{111}. In situ HRTEM observations show that the screw dislocation inside the hetero-QDs can be efficiently repaired using e-beam irradiation. These results may help in designing hetero-QDs with high-quality interfaces and identifying the strategies for synthesizing defect-free hetero-QDs.
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| http://dx.doi.org/10.1039/c9nr06110j | DOI Listing |
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