Issue 13, 2019

Self-assembly processes of octahedron-shaped Pd6L12 cages

Abstract

Self-assembly processes of three octahedron-shaped [Pd6L12]12+ cages were investigated by an NMR-based quantitative approach. As to the on-pathway of the Pd6L12 cage assembly, the final intramolecular ligand exchange in an incomplete cage, [Pd6L12Py*]12+ (Py*: 3-chloropyridine, which was used as a leaving ligand), is the rate-determining step in the self-assembly of all the three [Pd6L12]12+ cages. Contrary to the previous finding that the self-assembly of [PdmL2m]2m+ structures (m = 2, 3) and [Pd6L8]12+ capsules from rigid multitopic ligands efficiently takes place without the formation of kinetically trapped species under mild conditions, in the self-assembly of the [Pd6L12]12+ cages, even relatively rigid ditopic ligands co-produced 100 nm-sized kinetic traps through off-pathways, which would be because the energy landscape becomes more complicated by increasing the number of components in the final assembly. It was found that when Py* was used as a leaving ligand in CD3CN, the [Pd6L12]12+ cages were produced in high yield, preventing the formation of the kinetically trapped species, which indicates that the use of Py* as a leaving ligand in CD3CN is effective to obtain the thermodynamically most stable species.

Graphical abstract: Self-assembly processes of octahedron-shaped Pd6L12 cages

Supplementary files

Article information

Article type
Paper
Submitted
15 Kax 2018
Accepted
11 Nah 2019
First published
13 Nah 2019

Dalton Trans., 2019,48, 4139-4148

Self-assembly processes of octahedron-shaped Pd6L12 cages

S. Komine, T. Tateishi, T. Kojima, H. Nakagawa, Y. Hayashi, S. Takahashi and S. Hiraoka, Dalton Trans., 2019, 48, 4139 DOI: 10.1039/C8DT04931A

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