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 Science paper, researchers report developing a cobalt-based catalyst to replace the expensive iridium-based catalyst used in electrolyzers for hydrogen and oxygen separation from water.
In a Computational Materials Science paper, scientists describe an automated workflow, Elastemp, to predict the temperature dependence of the thermal expansion coefficients and elastic constants for materials.
In a Nature paper, scientists report that they have determined both the elemental type and chemical state of single iron and terbium atoms using synchrotron X-rays.
In a Nano Convergence paper, scientists report that CsPbBr3 nanoplatelets (less than three monolayers in thickness) have optical properties conducive to light-emitting technologies
In a Nature Materials paper, scientists present a molecular design strategy of inserting flexible, linear units into a polymer backbone to form an electroluminescent material.
In a paper appearing in the Journal of the American Chemical Society, researchers report a telomerase-activated MRI probe that could be applicable to anticancer drug development and more.
In a report published in Nature Communications, researchers describe a micromechanical resonator for which the response exhibits several complex long-term robust dynamic structures, even though the resonator is driven by a single harmonic drive.
In a Nanotechnology paper, scientists applied operando focused-ion beam scanning electron microscopy to determine the morphological changes in micro-sized alumina-coated tin particles during cycling.