Materials Chemistry & Science

Biography

Biography: Ramya Nair

Abstract

GdBO3 belongs to the category of rare earth borates. Its outstanding optical properties with high thermal and chemical stability enable them as potential candidates for solid-state lighting, plasma display panels etc. The motivation of this work is to understand the influence of local environments on luminescence properties of Eu3+ in three different phases of GdBO3, namely monoclinic, triclinic and nano-crystalline forms as this will be helpful for selecting a suitable host for getting optimum luminescence and to get a basic understanding on phase and local environment dependent optical parameters. GdBO3 containing 1at.% Eu3+ were prepared in nano-crystalline, monoclinic and triclinic forms in the present study based on hydrothermal, polyol and solid state reaction of  B, Gd and Eu precursors and subjected structural and luminescence studies. TEM images and SAED patterns confirmed the formation of nanorods of GdBO3 having the monoclinic structure (length~ 200 nm, width ~10 nm) while FTIR patterns have confirmed that in nanorods and triclinic phase boron exists in both diagonal and tetrahedral configurations. Unlike this in monoclinic GdBO3 boron exists only as BO4 structural units constituting B3O99- groups. The relative intensity ratios of electric dipole allowed to magnetic dipole transitions of Eu3+ in triclinic and nanorods of GdBO3 are 2 and 2.3 respectively and are found to be higher than that of monoclinic phase (1.4). The CIE colour coordinates are found to be (0.60, 0.34) for monoclinic, (0.64, 0.36) for triclinic phases and (0.62,0.35) for nanorods, suggesting that the nanorods have improved red colour characteristics compared to the other two forms.