TY - JOUR
T1 - Concentration dependence of multipolar mechanisms responsible for Sm 3+ → Eu3+ Energy Transfer in (Ca 0.97-3x/5.64Sr0.03)2.82(VO4) 2
T2 - 0.12Eu3+,xSm3+ phosphors
AU - Lin, Han Yu
AU - Chu, Sheng Yuan
PY - 2013
Y1 - 2013
N2 - The conventional method (I0/I - C plot) to determine the multipolar mechanism responsible for the energy transfer between different ions supposed the hypothesis of I0/I ≫ 1, where I0 and I are the emission intensity of the energy donor in the absence and presence of the acceptor, respectively. Compared with the conventional method, a modified method for investigation of the multipolar energy transfer proposed in this work demonstrated more precise and valid results. Excluding the prerequisite of I01, the concentration-dependent dipole-dipole multipolar interactions for the Sm3+ → Eu3+ energy transfer were observed based on the fitting results of (I0I - 1) - C plots for the first time. To clarify how the dominant dipole-dipole mechanism responsible for the Sm3+ → Eu3+ energy transfer changes from 2-body to 3-body type with the increasing concentration, the possibly involved transitions at high dilution and sufficiently high concentration were respectively proposed from the viewpoint of the conservation of energy. This finding is anticipated to assist scientists in making clear the mechanism leading to the Sm3+ → Eu3+ energy transfer in Sm 3+ and Eu3+ co-doped luminescent materials.
AB - The conventional method (I0/I - C plot) to determine the multipolar mechanism responsible for the energy transfer between different ions supposed the hypothesis of I0/I ≫ 1, where I0 and I are the emission intensity of the energy donor in the absence and presence of the acceptor, respectively. Compared with the conventional method, a modified method for investigation of the multipolar energy transfer proposed in this work demonstrated more precise and valid results. Excluding the prerequisite of I01, the concentration-dependent dipole-dipole multipolar interactions for the Sm3+ → Eu3+ energy transfer were observed based on the fitting results of (I0I - 1) - C plots for the first time. To clarify how the dominant dipole-dipole mechanism responsible for the Sm3+ → Eu3+ energy transfer changes from 2-body to 3-body type with the increasing concentration, the possibly involved transitions at high dilution and sufficiently high concentration were respectively proposed from the viewpoint of the conservation of energy. This finding is anticipated to assist scientists in making clear the mechanism leading to the Sm3+ → Eu3+ energy transfer in Sm 3+ and Eu3+ co-doped luminescent materials.
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U2 - 10.1149/2.003307jss
DO - 10.1149/2.003307jss
M3 - Article
AN - SCOPUS:84887390508
SN - 2162-8769
VL - 2
SP - R121-R125
JO - ECS Journal of Solid State Science and Technology
JF - ECS Journal of Solid State Science and Technology
IS - 7
ER -