PNNL

Abstract

Oriented attachment is a particle-based crystallization pathway, in which nanocrystals self-assemble in solution and attach along certain crystallographic direction often forming highly organized three-dimensional crystal morphologies. The pathway offers the potential for a general synthetic approach of hierarchical nanomaterials, in which multiscale structural control is achieved by manipulating the interfacial nucleation and self-assembly of nanoscale building blocks. Here the current status of the development of a predictive theoretical framework for modeling crystallization by oriented attachment is reviewed. A particular emphasis is made on recent developments in the understanding the microscopic details of solvent mediated forces that drive nanocrystal reorientation and alignment for face-selective attachment.