Tailored Lewis Acid Sites for High-Temperature Supported Single-Molecule Magnetism

Generating or even retaining slow magnetic relaxation in surface immobilized single-molecule magnets (SMMs) from promising molecular precursors remains a great challenge. Illustrative examples are organolanthanide compounds that show promising SMM properties in molecular systems, though surface immo...

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Published in:Journal of the American Chemical Society 2023-06, Vol.145 (23), p.12446-12451
Main Authors: Bernhardt, Moritz, Korzyński, Maciej D., Berkson, Zachariah J., Pointillart, Fabrice, Le Guennic, Boris, Cador, Olivier, Copéret, Christophe
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Communication
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cited_by cdi_FETCH-LOGICAL-a452t-5ea7fec513d7f8e9ef59eb96ea5900e695fa8d537d1d1872382b317aef24e0ae3
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container_end_page 12451
container_issue 23
container_start_page 12446
container_title Journal of the American Chemical Society
container_volume 145
creator Bernhardt, Moritz
Korzyński, Maciej D.
Berkson, Zachariah J.
Pointillart, Fabrice
Le Guennic, Boris
Cador, Olivier
Copéret, Christophe
description Generating or even retaining slow magnetic relaxation in surface immobilized single-molecule magnets (SMMs) from promising molecular precursors remains a great challenge. Illustrative examples are organolanthanide compounds that show promising SMM properties in molecular systems, though surface immobilization generally diminishes their magnetic performance. Here, we show how tailored Lewis acidic Al­(III) sites on a silica surface enable generation of a material with SMM characteristics via chemisorption of (Cpttt)2DyCl ((Cpttt)− = 1,2,4-tri­(tert-butyl)-cyclopentadienide). Detailed studies of this system and its diamagnetic Y analogue indicate that the interaction of the metal chloride with surface Al sites results in a change of the coordination sphere around the metal center inducing for the dysprosium-containing material slow magnetic relaxation up to 51 K with hysteresis up to 8 K and an effective energy barrier (U eff) of 449 cm–1, the highest reported thus far for a supported SMM.
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subjects Chemical Sciences
Communication
title Tailored Lewis Acid Sites for High-Temperature Supported Single-Molecule Magnetism
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