Highly luminescent Gd2O2S:Er3+,Yb3+ upconversion microcrystals obtained by a time- and energy-saving microwave-assisted solid-state synthesis

Publication date

2023-05-05

Authors

Machado, Ian P.
de Wit, Jurriaan WillemISNI 0000000492796199
van Bunningen, Arnoldus J.ISNI 0000000492613452
Pedroso, Cássio C.S.
Rodrigues, Lucas C.V.
Brito, Hermi F.
Meijerink, A.ISNI 000000039216731X

Editors

Advisors

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Document Type

Article
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License

cc_by_nc_nd

Abstract

Er3+-doped and Er3+,Yb3+-co-doped Gd2O2S are one of the most efficient upconversion (UC) materials available to date. However, preparing lanthanide oxysulfides can be challenging as it requires several hours of heating at>1000 °C in high power furnaces. Nonetheless, in designing a new synthesis technology for UC materials, one should consider that these systems suffer from defect quenching, responsible for significant optical energy losses. In this work, the microwave-assisted solid-state (MASS) synthesis was explored as an alternative to synthesize this class of materials, using two different starting compounds – lanthanide oxides (Ln2O3) and hydroxycarbonates (Ln(OH)CO3), where Ln3+: Gd, Er, Yb. Different Er3+,Yb3+ concentrations were investigated, and the Er3+(5%),Yb3+(5%) and Er3+(1%),Yb3+(10%) were shown to give the most intense UC output comparable to commercially available materials. Using Ln(OH)CO3 instead of the more common Ln2O3 for the MASS synthesis contributed to higher UC efficiencies and a more homogeneous Er3+ and especially Yb3+ distribution through the Gd2O2S lattice as verified by luminescence lifetime measurements. These high-quality materials were prepared in a simple two-step synthesis of 50 min and using a domestic microwave oven, leading to a remarkable decrease of 79% in processing time and 93% in energy consumption, making the MASS method suitable to be explored as an alternative synthesis methodology for high performance UC materials.

Keywords

Gadolinium oxysulfide, Microwave synthesis, Solid-state synthesis, Upconversion, Mechanics of Materials, Mechanical Engineering, Metals and Alloys, Materials Chemistry, SDG 7 - Affordable and Clean Energy

Citation

Machado, I P, de Wit, J, van Bunningen, A J, Pedroso, C C S, Rodrigues, L C V, Brito, H F & Meijerink, A 2023, 'Highly luminescent Gd 2 O 2 S:Er 3+,Yb 3+ upconversion microcrystals obtained by a time- and energy-saving microwave-assisted solid-state synthesis', Journal of Alloys and Compounds, vol. 942, 169083. https://doi.org/10.1016/j.jallcom.2023.169083