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Exchange-induced spin polarization in a single magnetic molecule junction

Tian Pei, James Oscar Thomas, Simen Sopp, Ming-Yee Tsang, Nicola Dotti, Jonathan Baugh, Nicholas F. Chilton, Salvador Cardona‐Serra, Alejandro Gaita‐Ariño, Harry L. Anderson, Lapo Bogani

2022Nature Communications45 citationsDOIOpen Access PDF

Abstract

Many spintronic devices rely on the presence of spin-polarized currents at zero magnetic field. This is often obtained by spin exchange-bias, where an element with long-range magnetic order creates magnetized states and displaces the hysteresis loop. Here we demonstrate that exchange-split spin states are observable and usable in the smallest conceivable unit: a single magnetic molecule. We use a redox-active porphyrin as a transport channel, coordinating a dysprosium-based single-molecule-magnet inside a graphene nano-gap. Single-molecule transport in magnetic field reveals the existence of exchange-split channels with different spin-polarizations that depend strongly on the field orientation, and comparison with the diamagnetic isostructural compound and milikelvin torque magnetometry unravels the role of the single-molecule anisotropy and the molecular orientation. These results open a path to using spin-exchange in molecular electronics, and offer a method to quantify the internal spin structure of single molecules in multiple oxidation states.

Topics & Concepts

SpintronicsSpin polarizationDiamagnetismCondensed matter physicsMagnetometerSpin (aerodynamics)Molecular electronicsSpinplasmonicsMagnetic anisotropyMagnetic fieldSingle-molecule magnetMaterials scienceMagnetizationPhysicsMoleculeZero field splittingFerromagnetismElectronQuantum mechanicsThermodynamicsMolecular Junctions and NanostructuresQuantum and electron transport phenomenaGraphene research and applications