Understanding how molecular arrangements within crystals influence their thermal behavior is a fundamental question in ...

Identifying and characterizing defects in crystalline solids is a challenging problem, particularly for lithium-ion intercalation materials, which often exhibit multiple stable oxidation and spin ...

In crystalline solids, identifying these defects is relatively straightforward due to lattice distortions. But in amorphous solids, the lack of long-range order makes detecting defect-like regions ...

Crystalline Defects. ... Hence, solid material characterization is crucial to address these challenges in order to achieve a successful pharmaceutical product development and quality by design.

The researchers treated these excitations in a 2D supercooled liquid as defects in a crystalline solid, and calculated what happens as the temperature changes. They found that bound pairs of ...

Unlike many materials that freeze into crystalline solids, the atoms and molecules in amorphous materials never stack together to form crystals when cooled. ... and graduate student Muhammad Hasyim ...

The researchers approached these excitations in a 2D supercooled liquid as if they were defects in a crystalline solid. As the liquid’s temperature rose to the onset temperature, ...

Spin defects make crystalline materials highly useful for quantum-based devices such as ultrasensitive quantum sensors, ... making them potentially highly sensitive detectors. “Solid-state spin ...

It is the most important defect in crystalline materials, says Zou, since it can affect the strength, ductility, toughness, thermal and electrical conductivities of crystalline materials, such as ...

It is the most important defect in crystalline materials, says Zou, since it can affect the strength, ductility, toughness, thermal and electrical conductivities of crystalline materials, such as ...