Optical characteristics and energy transfer between Eu3+ and Dy3+ in Na2CaSiO4:Dy3+, Eu3+ white-emitting phosphor

A new type of white-emitting phosphor Na2CaSiO4:Dy3+, Eu3+ was synthesized through the sol-gel method, and the influences of doping concentration and synthesis temperature on photoluminescence properties and crystal phase were systematically studied. The X-ray diffraction results manifested that the structures of all Na2CaSiO4:Dy3+, Eu3+ phosphors prepared at the temperatures above 1100 degrees C and Na2CaSiO4 are of the same type. Under the excitation of 349 nm, the as-prepared Na2CaSiO4:Dy3+ phosphors showed a blue emission peak at 487 nm and a yellow emission peak at 579 nm attributed to the F-4(9/2)-> H-6(15/2) and F-4(9/2)-> H-6(13/2) transitions of Dy3+ ions. Meanwhile, a white light emission was reached by the combination of the obtained blue and yellow components. By co-doping Eu3+ ions, a characteristic emission peak appeared in red region (617 nm) and it was ascribed to the characteristic D-5(0)-> F-7(2) transition of Eu3+. The warm white light emission (CCT = 2728 K) was realized with the 0.03Dy(3+), 0.02Eu(3+) co-doped Na2CaSiO4 phosphor. All results confirmed that the Na2CaSiO4:Dy3+, Eu3+ phosphor with excellent white emission has a potential application in the field of white light emitting diodes. (c) 2021 Elsevier B.V. All rights reserved.

Automated summary

A new type of white-emitting phosphor Na2CaSiO4:Dy3+, Eu3+ was synthesized via the sol-gel method, and it was found that white light emission can be achieved under specific doping and synthesis conditions, showing potential application prospects in the field of white light-emitting diodes.