High Efficiency Emission of Eu2+ Located in Channel and Mg‐Site of Mg2Al4Si5O18 Cordierite and Its Potential as a Bi‐Functional Phosphor toward Optical Thermometer and White LED Application

Abstract

AbstractEu2+ activated Mg2Al4Si5O18 cordierite phosphor is prepared by sol gel synthesis. The reduction process is carried out in a vacuum atmosphere. X‐ray diffraction, luminescence, decay times, quantum yield and emission thermal stability are studied. The emission from Eu2+ ions at different lattice sites, such as magnesium vacancies and inside the interstate channels, are identified and discussed. Considerations on crystal field strength and bond length allow to assign the blue emission band peak at 445 nm to Eu2+ ions located inside the interstitial channel, while the red band centered at 615 nm is related to Eu2+ ions on Mg site. It is found that the Mg2Al4Si5O18:Eu2+ phosphor excited by UV shows broad emission from 375 to 700 nm with high quantum efficiency (60%). The emission of Eu2+ in Mg2Al4Si5O18 has very good thermal stability, at 100 °C the intensity reaches 97% relative to the emission measured at room temperature. The investigations show that cordierite can be used as a temperature sensor with relative sensitivity of 0.45% at 400 °C. Moreover, the fabricated light‐emitting diode composed of 365 nm near‐UV chip and Mg2Al4Si5O18:Eu2+ phosphor exhibits bright white light with CIE coordinates (0.32, 0.34) for correlated color temperature of 6282 K and color rendering index of 82.