Litcius/Paper detail

Migration Mechanisms of Al3+/Li+ Lattice Impurities during Phase Transition from α-Quartz to β-Quartz: An Implication for Purification of High-Purity Quartz

Zhenlun Wei, Yubiao Li, Peiyue Li, Pan Li, Xianglin Hu, Yunxiang Gu, Yan Tian

2023Minerals16 citationsDOIOpen Access PDF

Abstract

The quality of high-purity quartz (HPQ) that used in strategic industries is normally limited due to lattice impurities. In order to reveal the migration pathway of lattice impurities in quartz particles during phase transition from α-quartz to β-quartz, α-quartz and Al3+/Li+-substituted α-quartz (S-α-quartz) was investigated under 846.15 K and 101.325 kPa based on density functional theory. Results showed that β-quartz exhibited more interstitial volume, dominating the migration of lattice impurities. This further indicates that the phase transition process was beneficial for the migration of lattice impurity from a structural point of view. Moreover, Al3+ and Li+ mainly migrated from the intracell to lattice surface along the c axis. In addition, Li+ migrated more easily than Al3+ due to higher mean square displacement values. From a thermodynamic point of view, the lower energy barrier in the case of the Al3+ and Li+ lattice suggested that the presence of lattice impurities promoted phase transition. This study therefore provides an excellent theoretical basis for the removal of lattice impurities of HPQ from an atomic perspective, for the first time.

Topics & Concepts

QuartzImpurityLattice (music)Phase transitionMaterials scienceLattice diffusion coefficientCondensed matter physicsAnalytical Chemistry (journal)ChemistryChromatographyMetallurgyPhysicsOrganic chemistryMedicineEffective diffusion coefficientAcousticsMagnetic resonance imagingRadiologyGlass properties and applicationsAcoustic Wave Resonator TechnologiesMaterial Dynamics and Properties
Migration Mechanisms of Al3+/Li+ Lattice Impurities during Phase Transition from α-Quartz to β-Quartz: An Implication for Purification of High-Purity Quartz | Litcius