Transition metal redox switches for reversible "on/off" and "slow/fast" single-molecule magnet behaviour in dysprosium and erbium bis-diamidoferrocene complexes

Single-molecule magnets (SMMs) are considered viable candidates for next-generation data storage and quantum computing. Systems featuring switchability of their magnetization dynamics are particularly interesting with respect to accessing more complex logic gates and device architectures. Here we sh...

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Bibliographic Details
Published in:Chemical science (Cambridge) 2017-12, Vol.8 (12), p.839-849
Main Authors: Dickie, Courtney M, Laughlin, Alexander L, Wofford, Joshua D, Bhuvanesh, Nattamai S, Nippe, Michael
Format: Article
Language:English
Subjects:
Data storage
Dysprosium
Erbium compounds
Iron 57
Logic circuits
Magnetic induction
Magnetic materials
Magnetic relaxation
Magnetization
Magnets
Mossbauer spectroscopy
Quantum computing
Spectrum analysis
Switches
Thermal stability
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Summary:Single-molecule magnets (SMMs) are considered viable candidates for next-generation data storage and quantum computing. Systems featuring switchability of their magnetization dynamics are particularly interesting with respect to accessing more complex logic gates and device architectures. Here we show that transition metal based redox events can be exploited to enable reversible switchability of slow magnetic relaxation of magnetically anisotropic lanthanide ions. Specifically, we report anionic homoleptic bis-diamidoferrocene complexes of Dy 3+ (oblate) and Er 3+ (prolate) which can be reversibly oxidized by one electron to yield their respective charge neutral redox partners (Dy: [1] − , 1 ; Er: [2] − , 2 ). Importantly, compounds 1 and 2 are thermally stable which allowed for detailed studies of their magnetization dynamics. We show that the Dy 3+ [1] − / 1 system can function as an "on"/"off" or a "slow"/"fast" redox switchable SMM system in the absence or presence of applied dc fields, respectively. The Er 3+ based [2] − / 2 system features "on"/"off" switchability of SMM properties in the presence of applied fields. Results from electrochemical investigations, UV-vis-NIR spectroscopy, and 57 Fe Mössbauer spectroscopy indicate the presence of significant electronic communication between the mixed-valent Fe ions in 1 and 2 in both solution and solid state. This comparative evaluation of redox-switchable magnetization dynamics in low coordinate lanthanide complexes may be used as a potential blueprint toward the development of future switchable magnetic materials. We present an in-depth experimental study of a new class of heterometallic, redox-switchable single-molecule magnets (SMMs).
ISSN:2041-6520
2041-6539
DOI:10.1039/c7sc03380j