In a Journal of the American Chemical Society paper, scientists report that cyclic spacers offer more desirable properties compared to linear ones when designing 2D lead iodide perovskites with thermally-demanding optoelectronic applications.
In a Nature Physics paper, scientists demonstrate that mechanical resonators can be made into a nonlinear system with vibrations approaching the quantum ground state.
In a study published in Chemistry of Materials, researchers report a quantum phase transition in single-crystal (Pr1-ₓLaₓ)4Ni3O8 fabricated with a unique high-pressure furnace that stabilizes oxides in unusual oxidation states.
In a study published in Nature Synthesis, researchers report a highly efficient method for synthesizing heterolayered oxychalcogenides by employing molten hydroxides as a key variable to control the building blocks of the heterolayers.
In a study published in Physical Review Letters, researchers demonstrate distant magnon-magnon coupling mediated by a superconducting resonator which serves as a coherent data bus for coherent magnonic interactions.
In a study published in Chemistry of Materials, researchers report a new approach to measuring reaction heat in atomic layer deposition that will enable improved understanding of numerous ALD reaction mechanisms.
In a study published in ACS Photonics, researchers found that integrating rare-earth ion molecular complexes with photonic structures could be a viable approach for the effective tuning of their optical properties.
In a study published in Physical Review Letters, researchers demonstrated the power of 3D pair distribution function analysis of single-crystal diffuse scattering by analyzing the structural phase transitions in (CaₓSr1-ₓ)3Rh4Sn13.