Unusual shape-preserved pathway of a core-shell phase transition triggered by orientational disorder

Abstract: The ubiquitous presence of crystal defects provides great potential and opportunities to construct the desired structure (hence with the desired properties) and tailor the synthetic process of crystalline materials. However, little is known about their regulation role in phase transition and crystallization pathways. It was generally thought that a phase transition in solution proceeds predominantly via the solvent-mediated phase-transformation pathway due to energetically high-cost solid-state phase transitio… Show more

“…UAD (P2 1 /c, a = 0.7237 nm, b = 0.6363 nm, c = 1.7449 nm, and β = 90.51°) has the same layer structure as UA, except that there are water molecules among the layers. The solidsolid transitions 53 and solution-mediated transitions 54 from UAD to UA crystals have been reported.…”

Progress in the regulation of pathological crystallization

“…UAD (P2 1 /c, a = 0.7237 nm, b = 0.6363 nm, c = 1.7449 nm, and β = 90.51°) has the same layer structure as UA, except that there are water molecules among the layers. The solidsolid transitions 53 and solution-mediated transitions 54 from UAD to UA crystals have been reported.…”

Progress in the regulation of pathological crystallization

Modulation of the dissolution with ASP from a supersaturated solution on a bionic platform for gout pathology crystals

Stabilization of uric acid mixed crystals by melamine