Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics

Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics

Abstract Y2O3:Yb3+ 5 at% ceramics have been synthesized by the reactive sintering method using different commercial yttria powders (Alfa-Micro, Alfa-Nano, and ITO-V) as raw materials. It has been shown that all Y2O3 starting powders consist from agglomerates up to 5–7 µm in size which are formed fro...

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Main Authors: R. P. Yavetskiy, A. E. Balabanov, S. V. Parkhomenko, O. S. Kryzhanovska, A. G. Doroshenko, P. V. Mateychenko, A. V. Tolmachev, Jiang Li, Nan Jiang, L. Gheorghe, M. Enculescu
Format: Article
Language:English
Published: SpringerOpen 2020-09-01
Series:Journal of Advanced Ceramics
Subjects:
transparent ceramics
reactive sintering
microstructure
grain growth
lasing
Online Access:https://doi.org/10.1007/s40145-020-0416-3
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spelling doaj-6a01fbcf5d2248bcad81397b4e50e91a2021-09-26T11:09:14ZengSpringerOpenJournal of Advanced Ceramics2226-41082227-85082020-09-01101496110.1007/s40145-020-0416-3Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramicsR. P. Yavetskiy0A. E. Balabanov1S. V. Parkhomenko2O. S. Kryzhanovska3A. G. Doroshenko4P. V. Mateychenko5A. V. Tolmachev6Jiang Li7Nan Jiang8L. Gheorghe9M. Enculescu10Institute for Single Crystals of NAS of UkraineInstitute for Single Crystals of NAS of UkraineInstitute for Single Crystals of NAS of UkraineInstitute for Single Crystals of NAS of UkraineInstitute for Single Crystals of NAS of UkraineInstitute for Single Crystals of NAS of UkraineInstitute for Single Crystals of NAS of UkraineKey Laboratory of Transparent Opto-functional Inorganic Materials, Shanghai Institute of Ceramics, Chinese Academy of SciencesKey Laboratory of Transparent Opto-functional Inorganic Materials, Shanghai Institute of Ceramics, Chinese Academy of SciencesNational Institute for Laser, Plasma and Radiation Physics, Laboratory of Solid-State Quantum Electronics, MagureleNational Institute of Materials Physics, MagureleAbstract Y2O3:Yb3+ 5 at% ceramics have been synthesized by the reactive sintering method using different commercial yttria powders (Alfa-Micro, Alfa-Nano, and ITO-V) as raw materials. It has been shown that all Y2O3 starting powders consist from agglomerates up to 5–7 µm in size which are formed from 25–60 nm primary particles. High-energy ball milling allows to significantly decreasing the median particle size D 50 below 500 nm regardless of the commercial powders used. Sintering experiments indicate that powder mixtures fabricated from Alfa-Nano yttria powders have the highest sintering activity, while (Y0.86La0.09Yb0.05)2O3 ceramics sintered at 1750 °C for 10 h are characterized by the highest transmittance of about 45%. Y2O3:Yb3+ ceramics have been obtained by the reactive sintering at 1750–1825°C using Alfa-Nano Y2O3 powders and La2O3+ZrO2 as a complex sintering aid. The effects of the sintering temperature on densification processes, microstructure, and optical properties of Y2O3:Yb3 + 5 at% ceramics have been studied. It has been shown that Zr4 + ions decrease the grain growth of Y2O3:Yb3+ ceramics for sintering temperatures 1750–1775 °C. Further increasing the sintering temperature was accompanied by a sharp increase of the average grain size of ceramics referred to changes of structure and chemical composition of grain boundaries, as well as their mobility. It has been determined that the optimal sintering temperature to produce high-dense yttria ceramics with transmittance of 79%–83% and average grain size of 8 µm is 1800 °C. Finally, laser emission at ∼1030.7 nm with a slope efficiency of 10% was obtained with the most transparent Y2O3:Yb3+ 5 at% ceramics sintered.https://doi.org/10.1007/s40145-020-0416-3transparent ceramicsreactive sinteringmicrostructuregrain growthlasing
collection DOAJ
language English
format Article
sources DOAJ
author R. P. Yavetskiy
A. E. Balabanov
S. V. Parkhomenko
O. S. Kryzhanovska
A. G. Doroshenko
P. V. Mateychenko
A. V. Tolmachev
Jiang Li
Nan Jiang
L. Gheorghe
M. Enculescu
spellingShingle R. P. Yavetskiy
A. E. Balabanov
S. V. Parkhomenko
O. S. Kryzhanovska
A. G. Doroshenko
P. V. Mateychenko
A. V. Tolmachev
Jiang Li
Nan Jiang
L. Gheorghe
M. Enculescu
Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics
Journal of Advanced Ceramics
transparent ceramics
reactive sintering
microstructure
grain growth
lasing
author_facet R. P. Yavetskiy
A. E. Balabanov
S. V. Parkhomenko
O. S. Kryzhanovska
A. G. Doroshenko
P. V. Mateychenko
A. V. Tolmachev
Jiang Li
Nan Jiang
L. Gheorghe
M. Enculescu
author_sort R. P. Yavetskiy
title Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics
title_short Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics
title_full Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics
title_fullStr Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics
title_full_unstemmed Effect of starting materials and sintering temperature on microstructure and optical properties of Y2O3:Yb3+ 5 at% transparent ceramics
title_sort effect of starting materials and sintering temperature on microstructure and optical properties of y2o3:yb3+ 5 at% transparent ceramics
publisher SpringerOpen
series Journal of Advanced Ceramics
issn 2226-4108
2227-8508
publishDate 2020-09-01
description Abstract Y2O3:Yb3+ 5 at% ceramics have been synthesized by the reactive sintering method using different commercial yttria powders (Alfa-Micro, Alfa-Nano, and ITO-V) as raw materials. It has been shown that all Y2O3 starting powders consist from agglomerates up to 5–7 µm in size which are formed from 25–60 nm primary particles. High-energy ball milling allows to significantly decreasing the median particle size D 50 below 500 nm regardless of the commercial powders used. Sintering experiments indicate that powder mixtures fabricated from Alfa-Nano yttria powders have the highest sintering activity, while (Y0.86La0.09Yb0.05)2O3 ceramics sintered at 1750 °C for 10 h are characterized by the highest transmittance of about 45%. Y2O3:Yb3+ ceramics have been obtained by the reactive sintering at 1750–1825°C using Alfa-Nano Y2O3 powders and La2O3+ZrO2 as a complex sintering aid. The effects of the sintering temperature on densification processes, microstructure, and optical properties of Y2O3:Yb3 + 5 at% ceramics have been studied. It has been shown that Zr4 + ions decrease the grain growth of Y2O3:Yb3+ ceramics for sintering temperatures 1750–1775 °C. Further increasing the sintering temperature was accompanied by a sharp increase of the average grain size of ceramics referred to changes of structure and chemical composition of grain boundaries, as well as their mobility. It has been determined that the optimal sintering temperature to produce high-dense yttria ceramics with transmittance of 79%–83% and average grain size of 8 µm is 1800 °C. Finally, laser emission at ∼1030.7 nm with a slope efficiency of 10% was obtained with the most transparent Y2O3:Yb3+ 5 at% ceramics sintered.
topic transparent ceramics
reactive sintering
microstructure
grain growth
lasing
url https://doi.org/10.1007/s40145-020-0416-3
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