Elisabeth Rieger scite author profile

Natural macromolecules, i.e., sequence-controlled polymers, build the basis for life. In synthetic macromolecular chemistry, reliable tools for the formation of sequence-controlled macromolecules are rare. A robust and efficient chain-growth approach based on the simultaneous living anionic polymerization of sulfonamide-activated aziridines for sequence control of up to five competing monomers resulting in gradient copolymers is presented. The simultaneous azaanionic copolymerization is monitored by real-time (1) H NMR spectroscopy for each monomer at any time during the reaction. The monomer sequence can be adjusted by the monomer reactivity, depending on the electron-withdrawing effect by the sulfonamide (nosyl-, brosyl-, tosyl-, mesyl-, busyl) groups. This method offers unique opportunities for sequence control by competing copolymerization: a step forward to well-engineered synthetic polymers with defined microstructures.

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The living anionic polymerization of activated aziridines: a systematic study of reaction conditions and kinetics

Rieger

Gleede

Weber

et al. 2017

Polym. Chem.

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Elisabeth Rieger

Aziridines and azetidines: building blocks for polyamines by anionic and cationic ring-opening polymerization

Sequence-Controlled Polymers via Simultaneous Living Anionic Copolymerization of Competing Monomers

The living anionic polymerization of activated aziridines: a systematic study of reaction conditions and kinetics

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