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Article Abstract
Mn-doped MgGeO (MMGO) is a near-infrared-emitting persistent luminescence (PersL) phosphor. Its low luminescence decay has been linked to vacancies within the MgGeO host, likely associated with Ge, although no direct correlations have been confirmed. In this study, the Ge K-edge X-ray absorption fine structure (XAFS) spectroscopy is employed to investigate a series of MMGO submicron-sized particles with varying afterglow durations. These samples are synthesized using a recently developed hydrothermal method, where it is found that the PersL duration is related to the annealing temperature and the presence of codopants. It is first demonstrated that the XAFS spectra obtained using an in-house XAFS spectrometer are comparable in quality to those acquired at synchrotron facilities. Analysis of the local Ge environment of the MMGO shows that the PersL duration is directly related to the Ge-O coordination number. Additionally, the introduction of Li extends the PersL duration of MMGO but does not alter the Ge-O coordination. The findings provide insights into the structural mechanisms driving luminescence and highlight the capability of in-house XAFS systems to deliver high-quality data for advanced materials research.
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Article Synopsis
- Narrowband ultraviolet-B (NB-UVB) luminescent materials show potential for use in photochemistry and photomedicine due to their high photon energy and visible-blind emission.
- This research demonstrates NB-UVB persistent luminescence (PersL) using ScPO phosphor, which continues to emit light at 313 nm for over 24 hours after X-ray exposure.
- The afterglow is caused by energy trapped in lattice defects transferring to Gd emitters, suggesting possibilities for applications in secret optical tagging and medical therapies.