HF‐free molten salt route for synthesis of highly efficient and water‐resistant K₂SiF₆:Mn⁴⁺ for warm white LED

Abstract: Solid-state white-light-emitting diodes (WLEDs) have attracted more and more attention for its long lifetime, high efficiency, low cost, and environment-friendly relative to incandescent and fluorescent of traditional lighting. 1−4 At present, the white light of commercial WLED is mainly obtained through the combination of blue InGaN chip and Y 3 Al 5 O 12 :Ce 3+ (YAG:Ce 3+) yellow phosphor. Due to the deficiency of red emission, the inherent disadvantages of these WLEDs, such as low color rendering index (CRI… Show more

“…A slight red shift has been observed in the temperature-dependent emission spectra of KRGF:Mn with the temperature increasing from 298 to 553 K (Figure b) . In addition to the emission position and intensity, the full width at half-maximum (fwhm) is another important parameter of luminescent materials with narrow band emission .…”

“…To demonstrate the commercial value of red phosphor OA-M-KRGF:Mn, a WLED2# device has been fabricated using as-synthesized OA-M-KRGF:Mn, commercial YAG:Ce phosphors, and a blue InGaN chip. The electroluminescence spectra of the two typical WLED1# and WLED2# (Figure a) emit “cold” and “warm” white light, respectively. − As a comparison, the white light generated by the WLED1# shows the CIE chromaticity coordinates ( x = 0.3241, y = 0.3357), CCT (6210 K), and CRI 75, whereas, the color coordinates, CCT, and CRI of the WLED2# are at ( x = 0.4258, y = 0.3980), 3677 K and 92, respectively. The optical properties of the WLEDs and photographs of the as-fabricated LEDs driven at 30 mA currents are shown in Figure S12.…”

“…A slight red shift has been observed in the temperaturedependent emission spectra of KRGF:Mn with the temperature increasing from 298 to 553 K (Figure 9b). 35 In addition to the emission position and intensity, the full width at halfmaximum (fwhm) is another important parameter of luminescent materials with narrow band emission. 13 The increasing temperature causes the fwhm of the emission spectra change from 23.5 to 26.7 nm, which is related to the structure rigidity and symmetry.…”

Improved Moisture-Resistant and Luminescence Properties of a Red Phosphor Based on Dodec-fluoride K₃RbGe₂F₁₂:Mn⁴⁺ through Surface Modification

“…A slight red shift has been observed in the temperature-dependent emission spectra of KRGF:Mn with the temperature increasing from 298 to 553 K (Figure b) . In addition to the emission position and intensity, the full width at half-maximum (fwhm) is another important parameter of luminescent materials with narrow band emission .…”

“…To demonstrate the commercial value of red phosphor OA-M-KRGF:Mn, a WLED2# device has been fabricated using as-synthesized OA-M-KRGF:Mn, commercial YAG:Ce phosphors, and a blue InGaN chip. The electroluminescence spectra of the two typical WLED1# and WLED2# (Figure a) emit “cold” and “warm” white light, respectively. − As a comparison, the white light generated by the WLED1# shows the CIE chromaticity coordinates ( x = 0.3241, y = 0.3357), CCT (6210 K), and CRI 75, whereas, the color coordinates, CCT, and CRI of the WLED2# are at ( x = 0.4258, y = 0.3980), 3677 K and 92, respectively. The optical properties of the WLEDs and photographs of the as-fabricated LEDs driven at 30 mA currents are shown in Figure S12.…”

“…A slight red shift has been observed in the temperaturedependent emission spectra of KRGF:Mn with the temperature increasing from 298 to 553 K (Figure 9b). 35 In addition to the emission position and intensity, the full width at halfmaximum (fwhm) is another important parameter of luminescent materials with narrow band emission. 13 The increasing temperature causes the fwhm of the emission spectra change from 23.5 to 26.7 nm, which is related to the structure rigidity and symmetry.…”

Improved Moisture-Resistant and Luminescence Properties of a Red Phosphor Based on Dodec-fluoride K₃RbGe₂F₁₂:Mn⁴⁺ through Surface Modification

“…The fabricated WLED produces cool white emission with a CCT value of 5920 K and a corresponding LER value of 68.3 lm W À1 at a driving current of 20 mA, demonstrating that it is desirable for most lighting applications. Although the LER values of PQD GNCs lag behind WLEDs based on chemically synthesized perovskite 54 or phosphor materials, 55,56 they have great potential among perovskite QD glass nanocomposites for light-emitting applications. 6,57 The sharp emission peaks result in a relatively low CRI value of 36, which is relatively low compared to the currently available commercial white LEDs.…”

Recyclability of CsPbBr₃ quantum dot glass nanocomposites for their long-standing use in white LEDs

“…Thanks to the specic electronic structure of the Mn 4+ (3d 3 electron conguration) ion, obvious broadening of the color gamut of LED-lit LCD backlights has been observed by employing Mn 4+ -activated red phosphors. [12][13][14][15][16][17][18] Theoretically, both Stokes and anti-Stokes photon vibrational sidebands could be easily implemented in the transition of Mn 4+ : 2 E/ 4 A 2 . 16,17 Whereas, only when Mn 4+ ions have distorted coordination geometries can the ZPL transition of Mn 4+ : 2 E/ 4 A 2 occur.…”

Mn⁴⁺-activated oxyfluoride K₃TaOF₆ red phosphor with intense zero phonon line for warm white light-emitting diodes