The use of a gate electrode allows us to gain deeper insight into the electronic structure of
molecular junctions. It is widely used for spectroscopy of the molecular levels and its excited …

At present, metal–molecular tunnel junctions are recognized as important active elements in
molecular electronics. This gives a strong motivation to explore physical mechanisms …

Implementation of modern Quantum Technologies might benefit from the remarkable
quantum properties shown by molecular spin systems. In this Perspective, we highlight the …

Quantum control of individual spins in condensed-matter devices is an emerging field with a
wide range of applications, from nanospintronics, to quantum computing. The electron …

A current of spin-polarized electrons senses and controls the magnetic state of
nanostructured materials. Obtaining similar electrical access to quantum spin systems, such …

We report on theoretical and experimental work involving a particular molecular switch, an
[Fe II (L) 2] 2+ complex, that utilizes a spin transition (“crossover”). The hallmark of this …

We have measured quantum transport through an individual Fe4 single-molecule magnet
embedded in a three-terminal device geometry. The characteristic zero-field splittings of …

Endohedral metallofullerenes exhibit combined properties from carbon cages as well as
internal metal moieties and have great potential in a wide range of applications as molecule …

This critical review represents a concise revision of the different experimental approaches so
far followed for the structuration of molecular nanomagnets on surfaces, since the first …

Single-atom magnetism switching is a key technique towards the ultimate data storage
density of computer hard disks and has been conceptually realized by leveraging the spin …