Correlation between structural and luminescent properties of Eu3+-doped ZnO epitaxial layers

Abstract: We have studied the epitaxial growth and photoluminescent (PL) properties of Eu3+-doped ZnO layers in correlation with structural analyses. Incorporation of Eu3+ ions into a ZnO host resulted in deterioration in crystal quality and lattice distortion. The spectral structure of Eu3+ emission revealed that Eu3+ ions were located at site symmetries lower than the original C3v of the Zn2+ ion sites in a hexagonal wurtzite structure of ZnO, which allowed for efficient red luminescence based on the electric dipole t… Show more

“…The same result has been found experimentally by A. Escobedo-Morals [33] as reported in table 1. The similar tendency are found by theoretical and experimental studies in the case of substitution Zn atoms by another atoms having a large ions radius, such Eu 3+ ( 0.97 Å) [34]and Cd 2+ (0.95 Å) [35]. Indeed, L.N.…”

Comparative first principles study of ZnO doped with group III elements

“…The same result has been found experimentally by A. Escobedo-Morals [33] as reported in table 1. The similar tendency are found by theoretical and experimental studies in the case of substitution Zn atoms by another atoms having a large ions radius, such Eu 3+ ( 0.97 Å) [34]and Cd 2+ (0.95 Å) [35]. Indeed, L.N.…”

Comparative first principles study of ZnO doped with group III elements

“…Up to now, various techniques have been developed for controlling shape, size and structures of such nanomaterials [12][13][14][15][16][17][18][19]. Moreover, the spontaneous emission probability of rare-earth doping nanoparticles can be significantly modified by changing the particle size, shape and surrounding medium [20][21][22][23][24][25]. However, the investigation about the Eu-doped ZnO nanomaterials with different morphology, in particular, the effects of various mineralizing agents on their morphologies and photoluminescence properties are limited [26,27].…”

Effects of mineralizing agent on the morphologies and photoluminescence properties of Eu3+-doped ZnO nanomaterials

“…The solubility limit of Eu 3+ in ZnO is reported [12] to be approximately 1%. Regarding the deviation of lattice constants when introducing a RE, there are reports [28,29,30] on both a and c increase as compared with the undoped ZnO, while Badalawa et al [6] presented an opposite modification of lattice constants in Eu:ZnO thin films: a -constant increases with Eu concentration while cconstant has an inverse proportional dependence. Photoluminescence measurements are primarily employed to determine the oxidation state of europium ions due to different emission properties: blue (Eu 2+ ) or red (Eu 3+ ) phosphors [31,22].…”

“…For LED applications, ZnO host enables full color (from blue to red) via energy transfer to longer wavelength emitters [20]; in particular, trivalent europium doped ZnO (ZnO:Eu 3+ ) is suitable for optoelectronic applications involving red emission (the 5 D 0 → 7 F J (J = 0, 1, 2) transitions) while ZnO:Eu 2+ can be used for blue emission ( 4 f 5 6 d 1 (T 2g ) → 4 f 7 ( 8 S 7/2 ) transition) [20,12,21,22]. Europium doped ZnO nanostructures are nowadays investigated aiming different applications [23,24,25,26,27,6]. The solubility limit of Eu 3+ in ZnO is reported [12] to be approximately 1%.…”

“…There are numerous studies concerning the doping effect (nature and concentration) of the rare earths (RE) on the crystalline structure of certain materials [3,4,5], including ZnO [6,7,8]; using RE as dopants has an important drawback due to its limited solubility in various hosts [9,10,11,12]. Europium based compounds are of great interest due to its potential applications in spintronics [13,14,15,16,17] or for light emitting diodes (LEDs) [18,19].…”

Structural characterization of impurified zinc oxide thin films