This paper is published in Volume-3, Issue-6, 2017
Area
Photo luminescence
Author
P. B Lakshmi Prasanna, P. Sai Raju, B. Subbarao, Dr. K. V. R Murthy
Org/Univ
VSR & NVR College, Tenali, Andhra Pradesh, India
Pub. Date
10 November, 2017
Paper ID
V3I6-1215
Publisher
Keywords
Photoluminescence, X-ray Diffraction [XRD], Scanning Electron Microscopy [SEM], Energy Dispersion Spectrum [EDS], Particle size Analysis, Solid State Reaction technique

Citationsacebook

IEEE
P. B Lakshmi Prasanna, P. Sai Raju, B. Subbarao, Dr. K. V. R Murthy. Good Blue Emission of Synthesized Zn2GeO4 Phosphor Doped with Eu (0.5%), International Journal of Advance Research, Ideas and Innovations in Technology, www.IJARIIT.com.

APA
P. B Lakshmi Prasanna, P. Sai Raju, B. Subbarao, Dr. K. V. R Murthy (2017). Good Blue Emission of Synthesized Zn2GeO4 Phosphor Doped with Eu (0.5%). International Journal of Advance Research, Ideas and Innovations in Technology, 3(6) www.IJARIIT.com.

MLA
P. B Lakshmi Prasanna, P. Sai Raju, B. Subbarao, Dr. K. V. R Murthy. "Good Blue Emission of Synthesized Zn2GeO4 Phosphor Doped with Eu (0.5%)." International Journal of Advance Research, Ideas and Innovations in Technology 3.6 (2017). www.IJARIIT.com.

Abstract

The present paper discusses an important phosphor material which is Zn2GeO4. The phosphor is prepared by taking appropriate quantities of ZnO and GeO2 of AR grade. This completes solid-state reaction. It is important to note here there is no evolving of the gases. Therefore this solid-state reaction can be called as Green chemistry route. The phosphor Zn2GeO4 : Base and Eu(0.5%) is Excited with 250, 255, 260, 265, 270, 275 nm the PL emission is found around 480nm. For 260nm excitation, the PL emission intensity of 400nm peak is increased by 75%. It can be stated that the increase PL emission peak intensity of 480nm peak is due to Eu3+ present in Zn2GeO4. This PL emission intensity may be due to the emission from Eu3+ and or the energy transfer Eu3+ to Ge. One of its promising application is to be used as phosphors in display technology such as field emission display which is considered to be the next generation flat panel displays.