A new method to grow single crystals and simultaneously control their growth orientation without melt processing has been discovered by Texas A&M University materials science and engineering doctoral ...

Single crystals exhibit highly ordered atomic arrangements that underpin unique electronic structures and optical properties, rendering them indispensable in both fundamental research and advanced ...

Piezoelectric materials, particularly single crystals and engineered solid solutions, play a pivotal role in modern sensing and actuation technologies. Their inherent ability to convert mechanical ...

Chinese scientists proposed a novel imine-to-olefin transformation strategy to synthesize single-crystal sp² carbon-linked covalent organic frameworks (sp²c-COFs). COFs are crystalline, porous ...

Addressable active layers are highly required in optoelectronic devices to realize functional integration and application. Metal halide perovskites have shown promising applications in optoelectronic ...

University of Oregon physicist Eric Corwin and a team of current and former students have used computer simulations to ...

Defect-filled lead-halide perovskites rival silicon solar cells because domain walls inside the material separate and guide charges. Researchers visualized these charge-transport networks using a ...

The nonlinear susceptibility is a measure of a material's nonlinear response to an applied electric field. It determines the strength of the nonlinear effects and is related to the crystal's symmetry ...

Controlling the size, shape and crystallographic orientation of single crystals is vital to exploit the desired properties. A new method to grow single crystals and simultaneously control their growth ...