White-Light-Emitting Polymer Composite Film Based on Carbon Dots
and Lanthanide Complexes
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Abstract
A white-light-emitting
polymer composite film was designed and synthesized by using carbon
dots (CDs) and lanthanide complexes as primary light emitters and
skillfully embedding them into a poly(methyl methacrylate) (PMMA)
matrix. The hydrophilic CDs used as blue light source were prepared
and functionalized by copolymerizing with methacrylate to prevent
their aggregate in the hydrophobic matrix. The lanthanide complexes
Eu(DBM)<sub>3</sub> and Tb(DBM)<sub>3</sub> (DBM: dibenzoylmethide),
in which the rare earth ions have not been fully coordinated, were
fabricated and used as red and green emitters. The coordinatively
unsaturated lanthanide ions could further coordinate with the oxygen
atoms in the PMMA chains, which makes the complexes homogeneously
dispersed in matrix as well as benefits to the energy transfer process.
By adjusting the ratio of CDs, Eu(DBM)<sub>3</sub> and Tb(DBM)<sub>3</sub> in the matrix, the high transparent film with improved thermal
stability, which prepared by a simple solution cast method, could
emit pure white light (CIE coordinate located at (0.31, 0.32)) under
400 nm laser with a quantum efficiency of 16.6%. The energy transfer
mechanism in the white-light-emitting material was also discussed