Understanding the reaction mechanisms of dehydrogenative Caryl–Caryl coupling is the key to directed formation of p-extended polycyclic aromatic hydrocarbons.
New materials can now be routinely imaged at atomic resolution with such high throughput in aberration-corrected scanning transmission electron microscopy that automatic methods for detecting
Antisite defects were selectively incorporated in monolayer WS2 during its growth by regulating W diffusion in Au substrates, as predicted by first principles calculations.
Metal Halide Perovskites (MHPs) offer promise for applications in PVs and LEDs due to high device performance and low fabrication cost.
Domain dynamics in polycrystalline materials are explored using a workflow combining deep learning-based segmentation of domain structures with non-linear dimensionality reduction using multilayer rotationally invariant autoencoders (rVAE).
Scientists demonstrated control over room temperature magnetism in a van der Waals magnet by tuning the crystal chemistry.
Experiments and simulations found that directing the synthesis of the solid electrolyte Li0.3La0.57TiO3 (LLTO) yields a 500-fold increase in grain boundary conductivity. Achieving higher grain boundary conductance provides a pathway toward al
Using inelastic neutron scattering and density matrix renormalization group calculations, a model-independent approach for entanglement quantification in quantum spin systems is developed. This work lays the foundation for a general entanglement
This work advances a ‘twist’ dynamical description of quasiparticles (e.g., phonons, Bloch electrons) in non-symmorphic chiral and achiral materials, thus building insights into the microscopic interactions that underlie their basic properties.
The single-layered ruthenate Sr2RuO4 is one of the most enigmatic unconventional superconductors.