Crystal Facet Engineering of CoPt Quantum Dots for Diverse Colloidal Heterostructures

Crystal Facet Engineering of CoPt Quantum Dots for Diverse Colloidal Heterostructures

Precise control of crystal orientation, and specifically the exposed surface, is critical for the engineering of heterostructures. Here, using CoPt as a model system, we explore the energetics to expose suitable facets to promote the required heterostructure formation. Different heterostructures are grown ranging from core/shell structure, diffused interface, dumbbell structured dimers, and embedded island structures wherein these hybrids are fabricated via micro/macrolevel facet-selective growth. The reaction conditions used to achieve such diversity starting from the same seed offer insights into the growth mechanisms of these heterostructures. Such a microscopic understanding of surface chemistry paves the way for the design of new heterostructures with exciting properties.

J. Phys. Chem. Lett. 2020, 11, 16, 6742–6748   https://doi.org/10.1021/acs.jpclett.0c01993