Giulia Serrano scite author profile

Atomic-scale magnetic moments in contact with superconductors host rich physics based on the emergence of Yu−Shiba−Rusinov (YSR) magnetic bound states within the superconducting condensate. Here, we focus on a magnetic bound state induced into Pb nanoislands by individual vanadyl phthalocyanine (VOPc) molecules deposited on the Pb surface. The VOPc molecule is characterized by a spin magnitude of 1/2 arising from a well-isolated singly occupied d xy -orbital and is a promising candidate for a molecular spin qubit with long coherence times. X-ray magnetic circular dichroism (XMCD) measurements show that the molecular spin remains unperturbed even for molecules directly deposited on the Pb surface. Scanning tunneling spectroscopy and density functional theory (DFT) calculations identify two adsorption geometries for this "asymmetric" molecule (i.e., absence of a horizontal symmetry plane): (a) oxygen pointing toward the vacuum with the Pc laying on the Pb, showing negligible spin−superconductor interaction, and (b) oxygen pointing toward the Pb, presenting an efficient interaction with the Pb and promoting a Yu−Shiba−Rusinov bound state. Additionally, we find that in the first case a YSR state can be induced smoothly by exerting mechanical force on the molecules with the scanning tunneling microscope (STM) tip. This allows the interaction strength to be tuned continuously from an isolated molecular spin case, through the quantum critical point (where the bound state energy is zero) and beyond. DFT indicates that a gradual bending of the VO bond relative to the Pc ligand plane promoted by the STM tip can modify the interaction in a continuously tunable manner. The ability to induce a tunable YSR state in the superconductor suggests the possibility of introducing coupled spins on superconductors with switchable interaction.

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Quantum dynamics of a single molecule magnet on superconducting Pb(111)

Serrano

Poggini

Briganti

et al. 2020

Nat. Mater.

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Molecular Ordering at the Interface Between Liquid Water and Rutile TiO₂(110)

Serrano

Bonanni

Giovannantonio

et al. 2015

Adv Materials Inter

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The pivotal importance of TiO2 as a technological material involves most applications in an aqueous environment, but the single‐crystal TiO2/bulk‐water interfaces are almost completely unexplored, since up to date solid/liquid interfaces are more difficult to access than surfaces in ultrahigh vacuum (UHV). Only a few techniques (as scanning probe microscopy) offer the opportunity to explore these systems under realistic conditions. The rutile TiO2(110) surface immersed in high‐purity water is studied by in situ scanning tunneling microscopy. The large‐scale surface morphology as obtained after preparation under UHV conditions remains unchanged upon prolonged exposure to bulk water. Moreover, in contrast to UHV, atomically resolved images show a twofold periodicity along the [001] direction, indicative of an ordered structure resulting from the hydration layer. This is consistent with density‐functional theory based molecular dynamics simulations where neighboring interfacial molecules of the first water layer in contact with the bulk liquid form dimers. By contrast, this dimerization is not observed for a single adsorbed water monolayer, i.e., in the absence of bulk water.

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Giulia Serrano

Tunable Spin–Superconductor Coupling of Spin 1/2 Vanadyl Phthalocyanine Molecules

Quantum dynamics of a single molecule magnet on superconducting Pb(111)

Molecular Ordering at the Interface Between Liquid Water and Rutile TiO₂(110)

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Giulia Serrano

Tunable Spin–Superconductor Coupling of Spin 1/2 Vanadyl Phthalocyanine Molecules

Quantum dynamics of a single molecule magnet on superconducting Pb(111)

Molecular Ordering at the Interface Between Liquid Water and Rutile TiO2(110)

Contact Info

Product

Resources

About

Molecular Ordering at the Interface Between Liquid Water and Rutile TiO₂(110)