Direction-Specific Interactions Control Crystal Growth by Oriented Attachment
Lawrence Berkeley National Laboratory · University of California, Berkeley · +6 more institutions
Abstract
The oriented attachment of molecular clusters and nanoparticles in solution is now recognized as an important mechanism of crystal growth in many materials, yet the alignment process and attachment mechanism have not been established. We performed high-resolution transmission electron microscopy using a fluid cell to directly observe oriented attachment of iron oxyhydroxide nanoparticles. The particles undergo continuous rotation and interaction until they find a perfect lattice match. A sudden jump to contact then occurs over less than 1 nanometer, followed by lateral atom-by-atom addition initiated at the contact point. Interface elimination proceeds at a rate consistent with the curvature dependence of the…
Citation impact
- FWCI
- 63.74
- Percentile
- 100%
- References
- 29
Authors
6- DLDongsheng Li
Lawrence Berkeley National Laboratory
- MHMichael H. Nielsen
Lawrence Berkeley National Laboratory, University of California, Berkeley
- JRJonathan R. I. Lee
Lawrence Livermore National Laboratory, Physical Sciences (United States)
- CFCathrine Frandsen
Technical University of Denmark
- JFJillian F. Banfield
Planetary Science Institute, Earth Island Institute, University of California, Berkeley
Topics & keywords
- Chemical physics
- Curvature
- Transmission electron microscopy
- Crystal (programming language)
- Nanoparticle
- Crystallography
- Crystal growth
- Jump