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Fast, solvent-free synthesis of ferrocene-containing organic cages <i>via</i> dynamic covalent chemistry in the solid state

Tom Kunde, Tobias Pausch, Piotr A. Guńka, Maurycy Krzyżanowski, Artur Kasprzak, Bernd M. Schmidt

2022Chemical Science18 citationsDOIOpen Access PDF

Abstract

A simple, solvent-free synthetic protocol towards the synthesis of organic self-assembled macromolecules has been established. By employing mechanochemistry using glassware readily available to every organic chemist, we were able to synthesise three novel organic cage compounds exemplarily and to speed up the synthesis of a ferrocene-containing macrocycle by a factor of 288 compared to the solution-based synthesis. The structural investigation of the newly synthesised cages revealed different modes of connectivity from using ferrocene-containing aldehydes caused by the free rotation of the cyclopentadienyl units against each other. By extending the facile solvent-free synthesis to ball-milling, even compounds that show lower reactivity could be employed in the dynamic covalent formation of organometallic cage compounds. The presented protocol gives access to otherwise inaccessible structures, speeds up general synthetic workflows, and simultaneously reduces the environmental impact of supramolecular syntheses.

Topics & Concepts

FerroceneChemistrySupramolecular chemistryDynamic covalent chemistryCovalent bondMechanochemistryCombinatorial chemistryCyclopentadienyl complexMacromoleculeOrganic synthesisReactivity (psychology)SolventOrganic chemistryMoleculeCatalysisElectrochemistryPhysical chemistryAlternative medicineElectrodePathologyBiochemistryMedicineSupramolecular Chemistry and ComplexesLuminescence and Fluorescent MaterialsCrystallography and molecular interactions
Fast, solvent-free synthesis of ferrocene-containing organic cages <i>via</i> dynamic covalent chemistry in the solid state | Litcius