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A molecular dynamics simulation route towards Eu-doped multi-component transparent spectral conversion glass-ceramics

Xiuxia Xu, Chenhao Wang, Di Wang, Wenyan Zheng, Zhiyu Liu, Jincheng Du, Xusheng Qiao, Xianping Fan, Zhiyu Wang, Guodong Qian

2024Journal of Rare Earths10 citationsDOIOpen Access PDF

Abstract

Eu 2+ doped fluorosilicate glass-ceramics containing BaF 2 nanocrystals have high potential as spectral conversion materials for organic solar cells . However, it is difficult to realize the efficient design of BaF 2 :Eu 2+ doped fluorosilicate glass and to vividly observe the glass microstructure in experiment through traditional trial-and-error glass preparation method. BaF 2 :Eu 2+ doped fluorosilicate glass-ceramics with high transparency, and high photoluminescence (PL) performance were predicted, designed and prepared via molecular dynamics (MD) simulation method. By MD simulation prediction, self-organized nanocrystallization was realized to inhibit the abnormal growth of nanocrystals due to [AlO 4 ] tetrahedra formed in the fluoride-oxide interface. The introduction of NaF reduces the effective phonon energy of the glass because Na + will prompt Al 3+ to migrate from the fluoride phase to the silicate phase and interface. The local environment of Eu 2+ is optimized by predicting the doping concentration of EuF 3 and 2 mol% EuF 3 is the best concentration in this work. Glass-ceramics sample GC2Eu as spectral conversion layer was successfully applied on organic solar cells to obtain more available visible phonons with a high photoelectric conversion efficiency (PCE). This work confirms the guidance of molecular dynamics simulation methods for fluorosilicate glasses design.

Topics & Concepts

Component (thermodynamics)DopingMolecular dynamicsMaterials scienceCeramicTransparent ceramicsDynamics (music)NanotechnologyOptoelectronicsComposite materialChemistryPhysicsThermodynamicsAcousticsComputational chemistryGlass properties and applicationsLuminescence Properties of Advanced MaterialsPhase-change materials and chalcogenides
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