摘要
The upconversion luminescence and dynamics in Er^3+ /Yb^3+ codoped nanocrystalline yttria (7-65 nm) are studied under 980-nm pulsed laser excitation, It is found that the red emission of ^4F9/2-^4I15/2 and the green emission of ^2H11/2/^4S3/2 in nanoparticles with lower concentration of Yb^3+ result from a two-photon excitation, In nanocrystals with higher Yb^3+ concentration, the red emissions from a two-photon excitation, while the green emissions from a three-photon excitation, The luminescence dynamics indicates that as the particle size decreases, both the rise and the decay time constants become shorter, As the size decreases to several nanometres, the rise process nearly disappears, suggesting that the upconversion luminescence originates mainly from self-excitation of Er^3+, instead of the energy transfer of Yb^3+→ Er^3+.
The upconversion luminescence and dynamics in Er^3+ /Yb^3+ codoped nanocrystalline yttria (7-65 nm) are studied under 980-nm pulsed laser excitation, It is found that the red emission of ^4F9/2-^4I15/2 and the green emission of ^2H11/2/^4S3/2 in nanoparticles with lower concentration of Yb^3+ result from a two-photon excitation, In nanocrystals with higher Yb^3+ concentration, the red emissions from a two-photon excitation, while the green emissions from a three-photon excitation, The luminescence dynamics indicates that as the particle size decreases, both the rise and the decay time constants become shorter, As the size decreases to several nanometres, the rise process nearly disappears, suggesting that the upconversion luminescence originates mainly from self-excitation of Er^3+, instead of the energy transfer of Yb^3+→ Er^3+.
基金
Supported by the National Nature Science Foundation of China under Grant No 10374086, and the 0ne Hundred Talents Project of Chinese Academy of Sciences.
