The field of molecular magnetism is rapidly evolving towards the use of magnetic molecules
and molecule-based magnetic materials in physics-driven and nanotechnology-driven …

Accurate characterization of correlated electronic states, as well as their evolution under
external fields or in dissipative environment, is essentially important for understanding the …

Haldane topological materials contain unique antiferromagnetic chains with symmetry-
protected energy gaps. Such materials have potential applications in spintronics and future …

The exchange scattering at magnetic adsorbates on superconductors gives rise to Yu-Shiba-
Rusinov (YSR) bound states. Depending on the strength of the exchange coupling, the …

Breaking a correlated pair in a superconductor requires an even number of fermions
providing at least twice the pairing energy Δ. Here, we show that a single tunneling electron …

We report on the construction and magnetic characterization of a fully functional hybrid
molecular system composed of a single magnetic porphyrin molecule bonded to graphene …

Structural flexibility of molecule-based systems is key to realizing the novel functionalities.
Tuning the structure in the atomic scale enables us to manipulate the quantum state in the …

We investigate the spectral evolution in different metal phthalocyanine molecules on NbSe2
surface using scanning tunnelling microscopy (STM) as a function of the coupling with the …

The active control of a molecular spin represents one of the main challenges in molecular
spintronics. Up to now spin manipulation has been achieved through the modification of the …

Organic radicals are promising building blocks for molecular spintronics. Little is known
about the role of unpaired electrons for electron transport at the single-molecule level. Here …