Key Laboratory of Advanced Functional Materials of Ministry of Education, College of Materials Science and Engineering, Beijing University of Technology, Beijing 100124, P. R. China ...

The Würzburg model system consisting of two nanographene layers that can absorb and bind chloride ions (green) through a defect in the crystal lattice. (Image: Kazutaka Shoyama, University of Würzburg ...

The Würzburg model system consisting of two nanographene layers that can absorb and bind chloride ions (green) through a defect in the crystal lattice. Graphene is an extremely thin, flexible and ...

Lattice gauge theory is a framework used in ... Additionally, the use of trapped ions to simulate the Schwinger model has demonstrated the ability to track real-time dynamics and nonperturbative ...

The findings were published in Nature. The Würzburg model system consisting of two nanographene layers that can absorb and bind chloride ions (green) through a defect in the crystal lattice. Image ...

increasing their distances from each other and widening the cavities in the lattice. This facilitates storage and transport of the lithium ions. At −10°C, their diffusion rate is still at 84% ...

A milestone in graphene research: Würzburg chemists have succeeded in controlling the passage of halide ions by deliberately ... can be created in the carbon lattice of graphene.

PTB is one of the global leading institutions and has, up to now, developed an impressive series of different optical clocks—among which are single ion clocks and optical lattice clocks.

EV Adoption Rate Cooling Off Electrification is a trend taking over the world. This is true for EVs, as well as for heating and industrial processes. However, not all is perfect yet, as classical ...