5th International Young Scientist Congress (IYSC-2019).  International E-publication: Publish Projects, Dissertation, Theses, Books, Souvenir, Conference Proceeding with ISBN.  International E-Bulletin: Information/News regarding: Academics and Research

Synthesis and Luminescence Properties of NaCaPO4: Eu Phosphor for Radiation Dosimetry and Solid State Lighting

Author Affiliations

  • 1Department of Physics, Sant Gadge Baba Amravati University, Amravati-444602, India
  • 2Department of Physics, Sant Gadge Baba Amravati University, Amravati-444602, India
  • 3Department of Physics, Sant Gadge Baba Amravati University, Amravati-444602, India
  • 4Department of Physics, Sant Gadge Baba Amravati University, Amravati-444602, India

Res.J.chem.sci., Volume 6, Issue (6), Pages 1-5, June,18 (2016)

Abstract

The polycrystalline NaCaPO4: Eu phosphor was developed by using solid state diffusion method (SSD). The structure of NaCaPO4: Eu phosphor confirmed by using X-ray diffraction pattern and crystal structure of NaCaPO4:Eu phosphor was orthorhombic with space group Pnam (62). The prepared NaCaPO4: Eu phosphor showed excellent luminescence (TL/OSL) responses under &

References

  1. Antonov-Romanovskii V., Keirum-Marcus I.F., Poroshina M.S., Trapeznikova Z.A. (1955)., Conference of the Academy of Sciences of the USSR on the Peaceful Uses of Atomic Energy., USAEC Report AEC-tr-2435, Moscow, (1956) 239.
  2. McKeever S.W.S., Akselrod M.S. and Markey B.G. (1996)., Pulsed Optically Stimulated Luminescence Dosimetry Using Alpha-Al2O3:C., Radiation Protection Dosimetry, 65, 267.
  3. Akselrod M.S. and McKeever S.W.S. (1999)., A Radiation Dosimetry Method Using Pulsed Optically Stimulated Luminescence., Radiation Protection Dosimetry, 81, 167.
  4. McKeever S.W.S. (2001)., Optically stimulated luminescence dosimetry., Nuclear Instruments and Methods in Physics Research Section B, 184, 29.
  5. Palan C.B., Koparkar K.A., Bajaj N.S., Soni A., Omanwar S.K. (2016)., Synthesis and thermoluminescence/ optically stimulated luminescence properties of CaB4O7: Ce phosphor., Journal of Materials Science: Materials in Electronics, 27, 5600.
  6. Palan C.B., Koparkar K.A., Bajaj N.S. and Omanwar S.K. (2016)., Synthesis and TL/OSL properties of CaSiO3: Ce biomaterial., Materials Letters, 175, 288.
  7. Palan C.B., Bajaj N.S., Koul D.K. and Omanwar S.K. (2015)., Elementary Result TL and OSL Properties of LiBaPO4:Tb3+ Phosphor., International Journal of Luminescence and Applications, 5, 12.
  8. Palan C.B., Bajaj N.S., Soni A., Kulkarni M.S. and Omanwar S.K. (2015)., Combustion synthesis and preliminary luminescence studies of LiBaPO4: Tb3+ phosphor., Bulletin of Materials Science, 38, 1527.
  9. Palan C.B., Chauhan A.O., Sawala N.S., Bajaj N.S. and Omanwar S.K. (2015)., Thermoluminescence and Optically Stimulated Luminescence Properties of MgB4O7: Ag Phosphor., International Journal of Luminescence and applications, 5, 408.
  10. Palan C.B., Bajaj N.S. and Omanwar S.K. (2016)., Synthesis and Luminescence Properties Of KSrPO4:Eu2+ Phosphor For Radiation Dosimetry., AIP Conf. Proc. 1728, 020474-1020474-5; doi: 10.1063/1.4946525
  11. Palan C.B., Bajaj N.S. and Omanwar S.K. (2015)., Elementary results on the dosimetric properties of SrSO4:Eu2+phosphor., St. Petersburg Polytechnical University Journal: Physics and Mathematics, 1(4), 410-416.
  12. Ade N., Nam T.L. and Assiamah M. (2012)., A synthetic diamond probe for both low-energy mammography X-rays and high-energy electron therapy beams., Radiation Physics and Chemistry, 81, 232.
  13. Grandhe BK., Bandi VR., Jang K., Kim SS., Shin D., Lee Y., Lim J. and Song T. (2011)., Reduction of Eu3+ to Eu2+ in NaCaPO4:Eu phosphors prepared in a non-reducing atmosphere., Journal of Alloys and Compounds, 509, 7937.
  14. Qin C., Huang Y., Shi L., Chen G., Qiao X. and Seo H. J. (2009)., Thermal stability of luminescence of NaCaPO4 : Eu2+phosphor for white-light-emitting diodes., Journal of Physics D: Applied Physics, 42, 185105.
  15. Li G., Xu X., Peng C., Shang M., Geng D., Cheng Z., Chen J and Lin J. (2011)., Yellow-emitting NaCaPO4:Mn2+ phosphor for field emission displays., Optics Express, 19(17), 16423-16431.
  16. Palan C.B., Bajaj N.S. and Omanwar S.K. (2016)., Luminescence properties of Eu2+ doped SrB 4O7 phosphor for radiation dosimetry., Materials Research Bulletin, 76, 216.
  17. Palan C.B., Koparkar K.A., Bajaj N.S., Soni A. and Omanwar S.K. (2016)., Synthesis and thermoluminescence/optically stimulated luminescence properties of CaB4O7: Ce phosphor., Journal of Materials Science: Materials in Electronics, 27, 5600.
  18. Bajaj N.S., Palan C.B., Koparkar K.A., Kulkarni M.S. and Omanwar S.K. (2016)., Preliminary results on effect of boron co-doping on CW-OSL and TL properties of LiMgPO4: Tb, B., Journal of Luminescence,175, 9.
  19. Khan Z.S., Ingale N.B. and Omanwar S.K. (2015)., Synthesis of thermoluminescence α-Ca2P2O7:Eu3+ bio-nanomaterial., Materials Letters, 158(1), 143.
  20. Bajaj N.S. and Omanwar S.K. (2012)., Combustion synthesis and luminescence characteristic of rare earth activated LiCaBO3., Journal of Rare Earths, 30, 1005.
  21. Khan Z.S., Ingale N.B. and Omanwar S.K. (2015)., Combustion Synthesis and Luminescence Properties of α-Ca2P2O7: Eu3+, Dy3+., Materials Today: Proceedings, 2, 4384.
  22. Palan C.B., Bajaj N.S., Soni A. and Omanwar S.K. (2016)., A novel KMgPO4: Tb3+ (KMPT) phosphor for radiation dosimetry., Journal of Luminescence, 176, 106.
  23. Koparkar K.A., Bajaj N.S. and Omanwar S.K. (2015)., Synthesis and Effect of Partially Replacement of Y3+ to La3+-Ions on Their Photoluminescence Properties of (Y(1-x)Lax)PO4:Eu3+ Phosphor., Electronic Materials Letters, 11, 303.