Abstract
A hybrid organic-inorganic molecular daisy chain has been synthesised in one pot reaction. The molecule contains two {Cr6Zn2} rings linked through an organic molecule that acts as both template and ligand. Magnetic and spectroscopic data reveal the magnetic complexity of the daisy chain, which can be casted to two magnetic isomers through comparison of experimental and simulated data for Cr(III) chains.
Highlights
A hybrid organic–inorganic molecular daisy chain has been synthesised in one pot reaction
The molecule contains two {Cr6Zn2} rings linked through an organic molecule that acts as both template and ligand
Magnetic and spectroscopic data reveal the magnetic complexity of the daisy chain, which can be casted to two magnetic isomers through comparison of experimental and simulated data for Cr(III) chains
Summary
A hybrid organic–inorganic molecular daisy chain has been synthesised in one pot reaction. The molecule contains two {Cr6Zn2} rings linked through an organic molecule that acts as both template and ligand. The other end of the thread has a phenylpyridine that acts as a stopper and as an N-donor ligand coordinating to a metal site in the second ring to form the interconnected rotaxane dimer.
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