화학공학소재연구정보센터
Journal of the American Chemical Society, Vol.131, No.33, 11652-11652, 2009
Highly Versatile Rare Earth Tantalate Pyrochlore Nanophosphors
Rare earth tantalate materials are of considerable interest in energy and environmentally related applications including photocatalytic H-2 generation or contaminant decomposition, ion conductivity for batteries and fuel cells, and phosphors for tight-emitting diodes (LEDs). These Eu-doped rare earth tantalate pyrochlore nanoparticles, K(1-2x)LnTa(2)O(7-x):Eu3+ (Ln = Lu, Y, Gd; x = 1/3 for Gd, x = 0 for Lu and Y), have quantum yields up to 78% when excited with blue light (464 nm), which is remarkable for nanoparticle forms that can suffer efficiency loss by surface effects or poor crystallinity, and are furthermore quite suitable for LED applications. The Gd analogue with its framework distortions has particularly high quantum yields. The blue excitation peak matches the emission of the GaN LED. The combination of the high quantum yield under blue excitation, low thermal quenching, and chemical stability renders these new materials promising red phosphors for blue-excitation white LEDs for solid-state lighting. In addition, the pyrochlore lattice is very accommodating to dopants and vacancies and will incorporate virtually any metal and coordination environment ranging from four-coordinate to eight-coordinate. Thus, there are virtually unlimited possibilities for tailoring and optimizing photoluminescent properties, as demonstrated by these scoping studies.