Enhanced thermoluminescence of sodium-doped lithium–magnesium fluorophosphate Li 9 Mg 3 [PO 4 ] 4 F 3
Lithium–magnesium fluorophosphate with the formula Li 9 Mg 3 [PO 4 ] 4 F 3 has recently been proposed as a new thermoluminescent material capable of storing ionizing radiation energy and emitting photons after additional thermal stimulation. Pure and sodium-doped fluorophosphates were obtained by mi...
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| Veröffentlicht in: | CrystEngComm 2024-10, Vol.26 (39), p.5632-5643 |
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| creator | Akulov, D. A. Kalinkin, M. O. Chufarov, A. Y. Tyutyunnik, A. P. Semkin, M. A. Medvedeva, N. I. Zhuravlev, N. A. Abashev, R. M. Surdo, A. I. Kellerman, D. G. |
| description | Lithium–magnesium fluorophosphate with the formula Li 9 Mg 3 [PO 4 ] 4 F 3 has recently been proposed as a new thermoluminescent material capable of storing ionizing radiation energy and emitting photons after additional thermal stimulation. Pure and sodium-doped fluorophosphates were obtained by microwave-assisted synthesis. Using X-ray and neutron diffraction methods, it was shown that sodium occupies only one of the three nonequivalent lithium positions. This conclusion was confirmed by a MAS NMR study and ab initio calculations. A significant increase in the thermoluminescence intensity of sodium-containing fluorophosphates in comparison to the undoped compound was found. Analysis of the kinetic parameters obtained from glow curves showed that they are similar for the undoped and sodium-doped samples. This indicates that the addition of sodium does not result in the emergence of novel types of traps, but rather in a change in their number. The effect of sodium on the formation of intrinsic defects, which can be responsible for the enhanced thermoluminescence, is considered using ab initio modelling. |
| doi_str_mv | 10.1039/D4CE00646A |
| format | Article |
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A. ; Kalinkin, M. O. ; Chufarov, A. Y. ; Tyutyunnik, A. P. ; Semkin, M. A. ; Medvedeva, N. I. ; Zhuravlev, N. A. ; Abashev, R. M. ; Surdo, A. I. ; Kellerman, D. G.</creator><creatorcontrib>Akulov, D. A. ; Kalinkin, M. O. ; Chufarov, A. Y. ; Tyutyunnik, A. P. ; Semkin, M. A. ; Medvedeva, N. I. ; Zhuravlev, N. A. ; Abashev, R. M. ; Surdo, A. I. ; Kellerman, D. G.</creatorcontrib><description>Lithium–magnesium fluorophosphate with the formula Li 9 Mg 3 [PO 4 ] 4 F 3 has recently been proposed as a new thermoluminescent material capable of storing ionizing radiation energy and emitting photons after additional thermal stimulation. Pure and sodium-doped fluorophosphates were obtained by microwave-assisted synthesis. Using X-ray and neutron diffraction methods, it was shown that sodium occupies only one of the three nonequivalent lithium positions. This conclusion was confirmed by a MAS NMR study and ab initio calculations. A significant increase in the thermoluminescence intensity of sodium-containing fluorophosphates in comparison to the undoped compound was found. Analysis of the kinetic parameters obtained from glow curves showed that they are similar for the undoped and sodium-doped samples. This indicates that the addition of sodium does not result in the emergence of novel types of traps, but rather in a change in their number. 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Using X-ray and neutron diffraction methods, it was shown that sodium occupies only one of the three nonequivalent lithium positions. This conclusion was confirmed by a MAS NMR study and ab initio calculations. A significant increase in the thermoluminescence intensity of sodium-containing fluorophosphates in comparison to the undoped compound was found. Analysis of the kinetic parameters obtained from glow curves showed that they are similar for the undoped and sodium-doped samples. This indicates that the addition of sodium does not result in the emergence of novel types of traps, but rather in a change in their number. 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Using X-ray and neutron diffraction methods, it was shown that sodium occupies only one of the three nonequivalent lithium positions. This conclusion was confirmed by a MAS NMR study and ab initio calculations. A significant increase in the thermoluminescence intensity of sodium-containing fluorophosphates in comparison to the undoped compound was found. Analysis of the kinetic parameters obtained from glow curves showed that they are similar for the undoped and sodium-doped samples. This indicates that the addition of sodium does not result in the emergence of novel types of traps, but rather in a change in their number. 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| source | Royal Society Of Chemistry Journals; Alma/SFX Local Collection |
| title | Enhanced thermoluminescence of sodium-doped lithium–magnesium fluorophosphate Li 9 Mg 3 [PO 4 ] 4 F 3 |
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