Microstructure and Optical Properties of Y1.8La0.2O3 Transparent Ceramics Prepared by Spark Plasma Sintering
Junming Luo, Xu Huang, Liping Deng

TL;DR
This study explores how adding LiF during the sintering process affects the transparency of Y1.8La0.2O3 ceramics used in optical applications.
Contribution
The novel use of LiF as a sintering aid to improve transmittance while managing carbon contamination and oxygen vacancies in transparent ceramics.
Findings
Adding 0.3 wt.% LiF achieves a maximum UV transmittance of 78.10% at 1550 °C.
Annealing at 900 °C for 3 h increases transmittance to 82.67% by reducing oxygen vacancies.
Excessive LiF causes F− ion precipitation, forming a secondary phase that lowers transmittance.
Abstract
Yttrium oxide ceramic is an excellent optical material widely used in lasers, scintillators, and upconversion luminescence. In this study, LiF was employed as an additive to generate volatile gases (CF)n to effectively inhibit carbon contamination and act as a sintering aid to accelerate densification during the spark plasma sintering (SPS) process. The effects of sintering temperature and annealing time on the transmittance of Y1.8La0.2O3 transparent ceramics were systematically investigated. Results indicate that excessive LiF addition reduces the transmittance of Y1.8La0.2O3 transparent ceramics due to the precipitation of F− ions at grain boundaries, forming a secondary phase. For the Y1.8La0.2O3 ceramics with 0.3 wt.% LiF, transmittance initially increases and then decreases with rising sintering temperature, reaching a maximum value of 78.10% in the UV region at 1550 °C. Under…
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Taxonomy
TopicsLuminescence Properties of Advanced Materials · Glass properties and applications · Nuclear materials and radiation effects
