Combinatorial characterization of metastable luminous silver cations

Hirokazu Masai; Masanori Koshimizu; Hiroki Kawamoto; Hiroyuki Setoyama; Yohei Onodera; Kazutaka Ikeda; Shingo Maruyama; Naoki Haruta; Tohru Sato; Yuji Matsumoto; Chika Takahashi; Teruyasu Mizoguchi

doi:10.1038/s41598-024-55014-8

論文 Combinatorial characterization of metastable luminous silver cations

Hirokazu Masai ; Masanori Koshimizu ; Hiroki Kawamoto ; Hiroyuki Setoyama ; Yohei Onodera (National Institute for Materials Science) ; Kazutaka Ikeda ; Shingo Maruyama ; Naoki Haruta ; Tohru Sato ; Yuji Matsumoto ; Chika Takahashi ; Teruyasu Mizoguchi

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Hirokazu Masai, Masanori Koshimizu, Hiroki Kawamoto, Hiroyuki Setoyama, Yohei Onodera, Kazutaka Ikeda, Shingo Maruyama, Naoki Haruta, Tohru Sato, Yuji Matsumoto, Chika Takahashi, Teruyasu Mizoguchi. Combinatorial characterization of metastable luminous silver cations. Scientific Reports. 2024, 14 (), 4638. https://doi.org/10.1038/s41598-024-55014-8

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Thermodynamically metastable glasses that can contain metastable species are important functional materials. X-ray absorption near-edge structure (XANES) spectroscopy is an effective technique for determining the valence states of cations, especially for the doping element in phosphors. Herein, we first confirm the valence change of silver cations from monovalent to trivalent in aluminophosphate glasses by X-ray irradiation using a combination of Ag L3-edge XANES, electron spin resonance, and simulated XANES spectra based on first-principles calculations. The absorption edge of the experimental and simulated XANES spectra demonstrate the spectral features of Ag(III), confirming that AgO exists as Ag(I)Ag(III)O2. A part of Ag(I) changes to Ag(III) by X-ray irradiation, and the generation of Ag(III) is saturated after high irradiation doses, in good agreement with conventional radiophotoluminescence (RPL) behaviour. The structural modelling based on a combination of quantum beam analysis suggests that the local coordination of Ag cations is similar to that of Ag(III), which is confirmed by density functional theory calculations. This demonstration of Ag(III) in glass overturns the conventional understanding of the RPL mechanism of silver cations, redefining the science of silver-related materials.

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