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Showing 1–5 of 5 results
Advanced filters: Author: Talal Mallah Clear advanced filters

  • Molecular magnets may serve as engineerable spin qubit candidates for quantum information science; however, the magnetic fields often used for control can be challenging to confine. Now, it has been shown that well-designed mononuclear Mn(II) complexes demonstrate enhanced spin–electric coupling, providing guidance for electrically controllable molecular spin qubits.

    • Mikhail V. Vaganov
    • Nicolas Suaud
    • Junjie Liu
    ResearchOpen Access
    Nature Chemistry
    Volume: 17, P: 1903-1909

  • Controlling the magnetic response of a molecular device is important for spintronic applications. Here the authors report the self-assembly, magnetic coupling, and anisotropy of two transition metal complexes bound to a ferrimagnetic surface, and probe the role of the nature of the transition metal ion.

    • Victoria E. Campbell
    • Monica Tonelli
    • Talal Mallah
    ResearchOpen Access
    Nature Communications
    Volume: 7, P: 1-10

  • Spin crossover molecules may find applications in ultimately small magnetic devices, given the sensitivity of their spin-states to external stimuli. Here, the authors show a light-induced transition between two ordered dynamic phases in two-dimensional spin crossover layers on a metallic surface.

    • Kaushik Bairagi
    • Olga Iasco
    • Vincent Repain
    ResearchOpen Access
    Nature Communications
    Volume: 7, P: 1-7

  • Cyanide-bridged CoFe coordination networks exhibit photomagnetism because of coupled charge-transfer and spin transition. Now, femtosecond X-ray and optical absorption spectroscopies have enabled the electronic and structural dynamics of this light-induced process to be disentangled and show that it is the spin transition on the cobalt atom, occurring within ~50 fs, that induces the Fe-to-Co charge-transfer within ~200 fs.

    • Marco Cammarata
    • Serhane Zerdane
    • Eric Collet
    Research
    Nature Chemistry
    Volume: 13, P: 10-14