Login / Signup

Design Rules for Self-Assembly of 2D Nanocrystal/Metal-Organic Framework Superstructures.

Fen QiuJohn R EdisonZdenek PreislerYan-Fang ZhangGuo LiAizhao PanChih-Hao HsuTracy M MattoxPeter ErciusChengyu SongKaren BustilloMichael A BradyEdmond W ZaiaSohee JeongJeffrey B NeatonShixuan DuStephen WhitelamJeffrey J Urban
Published in: Angewandte Chemie (International ed. in English) (2018)
We demonstrate the guiding principles behind simple two dimensional self-assembly of MOF nanoparticles (NPs) and oleic acid capped iron oxide (Fe3 O4 ) NCs into a uniform two-dimensional bi-layered superstructure. This self-assembly process can be controlled by the energy of ligand-ligand interactions between surface ligands on Fe3 O4 NCs and Zr6 O4 (OH)4 (fumarate)6 MOF NPs. Scanning transmission electron microscopy (TEM)/energy-dispersive X-ray spectroscopy and TEM tomography confirm the hierarchical co-assembly of Fe3 O4 NCs with MOF NPs as ligand energies are manipulated to promote facile diffusion of the smaller NCs. First-principles calculations and event-driven molecular dynamics simulations indicate that the observed patterns are dictated by combination of ligand-surface and ligand-ligand interactions. This study opens a new avenue for design and self-assembly of MOFs and NCs into high surface area assemblies, mimicking the structure of supported catalyst architectures, and provides a thorough fundamental understanding of the self-assembly process, which could be a guide for designing functional materials with desired structure.
Keyphrases