Single-molecule magnets (SMMs) have been proposed for applications in high-density
storage, quantum simulation, quantum computing and spintronics applications. Bulk …

Light–matter interaction drives many systems, such as optoelectronic devices like light-
emitting diodes and solar cells, biological structures like photosystem II and potential future …

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

Electron spin resonance (ESR) spectroscopy is a crucial tool, through spin labelling, in
investigations of the chemical structure of materials and of the electronic structure of …

The detection of faint magnetic fields from single-electron and nuclear spins at the atomic
scale is a long-standing challenge in physics. While current mobile quantum sensors …

Achieving time-domain control of quantum states with atomic-scale spatial resolution in
nanostructures is a long-term goal in quantum nanoscience and spintronics. Here, we …

Artificial quantum systems have emerged as platforms to realize topological matter in a well-
controlled manner. So far, experiments have mostly explored non-interacting topological …

Advances in high-resolution and spin-resolved scanning tunnelling microscopy, as well as
atomic-scale manipulation, have enabled the bottom-up, atom-by-atom creation and …

Control of single electron spins constitutes one of the most promising platforms for
spintronics, quantum sensing, and quantum information processing. Utilizing single …

Full insight into the dynamics of a coupled quantum system depends on the ability to follow
the effect of a local excitation in real-time. Here, we trace the free coherent evolution of a pair …