Inverted perovskite solar cells offer strong potential for scalable, low-cost solar power, but a hidden interface inside the ...

Crystalline nanomaterials are valuable because their highly ordered structures give them useful properties for technologies ...

The organic sugar producer says AI-powered process intelligence has enabled advanced automation to streamline and scale its ...

In a study published in Angewandte Chemie International Edition, researchers from National Taiwan University report that a ...

Bioavailability data recently obtained from Phase 1 study with a stable crystal form of neflamapimod manufactured using a new ...

Tiny crystal “seeds” could solve a hidden flaw in perovskite solar cells—unlocking high efficiency at larger scales.

NYU researchers have found a way to use light to control how microscopic particles assemble into crystals, effectively turning illumination into a tool for shaping matter. By adding light-sensitive ...

Regular perovskite solar cells (PSCs)—which place the electron-transport layer beneath the perovskite absorber and the hole-transport layer on top—have limitations with respect to large-scale ...

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 ...

Virtual apertures let researchers isolate and solve atomic structures from individual nanocrystals embedded in dense clusters, providing valuable new data for energy and pharmaceutical applications.

Chemists discovered that a seemingly solid, nonporous crystal can 'come alive' when heated. A two-step transformation releases trapped molecules, drives a vivid blue - green - yellow glow, and even ...