Thermodynamic origin of the structural transition pathway in metal oxide nanoparticles under acoustic shocked conditions
Sivakumar Aswathappa, Lidong Dai, Sahaya Jude Dhas Sathiyadhas
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