Litcius/Paper detail

Thermodynamic origin of the structural transition pathway in metal oxide nanoparticles under acoustic shocked conditions

Sivakumar Aswathappa, Lidong Dai, Sahaya Jude Dhas Sathiyadhas

2025Physical Chemistry Chemical Physics6 citationsDOI

Abstract

-type oxides under similar shocked conditions. Post shock, while most of the oxides exhibit stable crystal structures, some demonstrate temperature-driven pathways and few exhibit pressure-driven transitions. In particular, two key factors, namely, thermal conductivity-dependent molten pool nucleation gap and cation chemoselectivity, are found to determine the transition type. The proposed interpretation may bring about new structural transition concepts under extreme conditions.

Topics & Concepts

OxideNucleationTransition metalMaterials sciencePhase transitionChemical physicsThermalCrystal (programming language)NanoparticleMetalThermodynamicsShock (circulatory)Crystal structurePhase (matter)Structural changePerovskite (structure)Tungsten oxideCrystallographyChemical engineeringChemistryThermal expansionTransition (genetics)High-pressure geophysics and materialsUltrasound and Cavitation Phenomenananoparticles nucleation surface interactions