We report a Single-Chain Magnet (SCM) made of a Terbium(III) building block and a nitronyl-nitroxide radical (NIT) functionalized with an aliphatic chain. This substitution is targeted to induce a long range distortion of the polymeric chain and accordingly it gives rise to chains that are curled with almost 20 nm helical pitch. They self-organize as a chiral tubular superstructure made of 11 chains wound around each other. The supramolecular tubes have a 4.5 nm internal diameter. Overall, this forms a porous chiral network with almost 44% porosity. Ab-initio calculations highlight that each TbIII ion possesses high magnetic anisotropy. Indeed, notwithstanding the supramolecular arrangement each chain behaves as a SCM. Magnetic relaxation with both finite and infinite-size regimes is observed and confirms the validity of the Ising approximation. This is associated with quite strong coercive field and magnetic remanence (Hc = 2400 Oe MR = 2.09 µB at 0.5 K) for this class of compounds.
Chiral supramolecular nanotubes of single-chain magnets / Houard, Felix; Evrard, Quentin; Calvez, Guillaume; Suffren, Yan; Daiguebonne, Carole; Guillou, Olivier; Gendron, Frederic; Le Guennic, Boris; Guizouarn, Thierry; Dorcet, Vincent; Mannini, Matteo; Bernot, Kevin. - In: ANGEWANDTE CHEMIE. INTERNATIONAL EDITION. - ISSN 1433-7851. - STAMPA. - 59:(2020), pp. 780-784. [10.1002/anie.201913019]
Chiral supramolecular nanotubes of single-chain magnets
Houard, Felix;Mannini, Matteo;
2020
Abstract
We report a Single-Chain Magnet (SCM) made of a Terbium(III) building block and a nitronyl-nitroxide radical (NIT) functionalized with an aliphatic chain. This substitution is targeted to induce a long range distortion of the polymeric chain and accordingly it gives rise to chains that are curled with almost 20 nm helical pitch. They self-organize as a chiral tubular superstructure made of 11 chains wound around each other. The supramolecular tubes have a 4.5 nm internal diameter. Overall, this forms a porous chiral network with almost 44% porosity. Ab-initio calculations highlight that each TbIII ion possesses high magnetic anisotropy. Indeed, notwithstanding the supramolecular arrangement each chain behaves as a SCM. Magnetic relaxation with both finite and infinite-size regimes is observed and confirms the validity of the Ising approximation. This is associated with quite strong coercive field and magnetic remanence (Hc = 2400 Oe MR = 2.09 µB at 0.5 K) for this class of compounds.
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Opensourceversion_Houard -2019-et al-Chiral supramolecular nanotubes of single-chain magnets-1.pdf
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