Muons are particles with a spin of ½ that can be implanted into a wide range of condensed
matter materials to act as a local probe of the surrounding atomic environment …

Spin‐crossover (SCO) active transition metal complexes are an important class of
switchable molecular materials due to their bistable spin‐state switching characteristics at or …

The miniaturization trend in the semiconductor industry has led to the understanding that
interfacial properties are crucial for device behaviour. Spintronics has not been alien to this …

Two-dimensional materials (2DMs) have attracted tremendous research interest over the
last two decades. Their unique optical, electronic, thermal, and mechanical properties make …

The recent discovery of 2D magnetic order in van der Waals materials has stimulated a
renaissance in the field of atomically thin magnets. This has led to promising demonstrations …

The realization of strong magnetoelectric (ME) coupling for efficiently controlling of
magnetism is urgently needed but still a significant challenge. Based on first-principle …

The d-band center model of Hammer and Nørskov is widely used in understanding and
predicting catalytic activity on transition metal (TM) surfaces. Here, we demonstrate that this …

Graphene is extremely promising for next-generation spintronics applications; however,
realizing graphene-based room-temperature magnets remains a great challenge. Here, we …

Both experimental situations, photoemission and SPM, can be thought of as tunneling
processes with energies above or below the work function of the material, respectively. In …

We fabricated a C60 fullerene–based molecular spin-photovoltaic device that integrates a
photovoltaic response with the spin transport across the molecular layer. The photovoltaic …