posted on 2020-06-09, 15:36authored byJessica Cimada daSilva, Michelle A. Smeaton, Tyler A. Dunbar, Yuanze Xu, Daniel M. Balazs, Lena F. Kourkoutis, Tobias Hanrath
Understanding
the mechanism and ultimately directing nanocrystal (NC) superlattice
assembly and attachment have important implications on future advances
in this emerging field. Here, we use 4D-STEM to investigate a monolayer
of PbS NCs at various stages of the transformation from a hexatic
assembly to a nonconnected square-like superlattice over large fields
of view. Maps of nanobeam electron diffraction patterns acquired with
an electron microscope pixel array detector (EMPAD) offer unprecedented
detail into the 3D crystallographic alignment of the polyhedral NCs.
Our analysis reveals that superlattice transformation is dominated
by translation of prealigned NCs strongly coupled along the <11n>AL direction and occurs stochastically and
gradually throughout single grains. We validate the generality of
the proposed mechanism by examining the structure of analogous PbSe
NC assemblies using conventional transmission electron microscopy
and selected area electron diffraction. The experimental results presented
here provide new mechanistic insights into NC self-assembly and oriented
attachment.