The ability to electrically control magnetism in a gate dielectric is demonstrated by physicists at North Carolina State University.
Atomically thin transition-metal-dichalcogenides (TMDCs) have recently attracted a lot of research interest. Like graphene, they can be prepared as two-dimensional crystals by exfoliation. Unlike graphene, they are semiconductors with large band gaps, which make them...
A Carbononics special issue in pss RRL – integrating electronics, photonics and spintronics with graphene quantum dots.
Molybdenum disulphide (MoS2) has recently emerged as one of the most promising two-dimensional semiconductors. Impressive field-effect transistors, integrated circuits, phototransistors and sensors based on single and multilayers exfoliated from natural MoS2 have been...
Razdolski et al. observed oscillations in magneto-optical response of magnetically coupled multilayers, opening new horizons for magnetic media applications
Guo et al. reported on a systematic elastic neutron scattering study of the charge correlations in La2CoO4 as a function of Sr-doping.
Menendez-Proupin et al. study excitons in metal-halide perovskites using the effective mass approximation providing better agreement with the experiment.
A group of scientists at the University of Regensburg have studied the photoluminescence of gated monolayer WS2 flakes and identified the biexciton emission
The 2015 edition of our pss Showcase looks back on recent successful publications in the physica status solidi journal family.
Researchers from University of Cambridge have proposed a new type of multi-functional pixel elements for next generation holographic display technologies.