A Novel Efficient Mn⁴⁺ Activated Ca₁₄Al₁₀Zn₆O₃₅ Phosphor: Application in Red-Emitting and White LEDs

Abstract: A new, highly efficient deep red-emitting phosphor Ca14Al10Zn6O35:Mn(4+) was developed as a component of solid-state white light-emitting diodes (LEDs). The structural and optical characterization of the phosphor is described. The phosphor exhibits strong emission in the range of 650-700 nm when excited by 460 nm excitation, with a quantum efficiency approaching 50%. Concentration dependence of Mn(4+) luminescence in Ca14Al10Zn6O35:Mn(4+) is investigated. Attempts to understand the thermal stability on the bas… Show more

“…On the other hand, some non-rare-earth-based luminescent materials like semiconducting quantum dots, [154][155][156][157][158][159] Mn 4+activated red-emitting materials (aluminates, silicates, fluorosilicate, fluorotitanate) [160][161][162][163][164][165][166][167][168] and defect-related luminescent materials show excellent luminescence properties under n-UV and blue light excitation. The spectral tuning based on the above approaches can improve the luminescence performance of pc-WLED phosphors such as improving the luminous efficiency, optimizing the color rendering properties, achieving the desired color temperature, enhancing the color gamut and so on.…”

Recent progress in luminescence tuning of Ce³⁺and Eu²⁺-activated phosphors for pc-WLEDs

“…On the other hand, some non-rare-earth-based luminescent materials like semiconducting quantum dots, [154][155][156][157][158][159] Mn 4+activated red-emitting materials (aluminates, silicates, fluorosilicate, fluorotitanate) [160][161][162][163][164][165][166][167][168] and defect-related luminescent materials show excellent luminescence properties under n-UV and blue light excitation. The spectral tuning based on the above approaches can improve the luminescence performance of pc-WLED phosphors such as improving the luminous efficiency, optimizing the color rendering properties, achieving the desired color temperature, enhancing the color gamut and so on.…”

Recent progress in luminescence tuning of Ce³⁺and Eu²⁺-activated phosphors for pc-WLEDs

“…As one of the important non-rare-earth activators, Mn 4+ is featured by the sharp red emission lines and broad excitation band due to its distinct outer 3d 3 electron configuration. 21 23 and so on. Thus, warm WLED can be reached by employing Mn 4+ -activated fluoride phosphors plus YAG:Ce 3+ , which has been demonstrated in many cases, including K 2 SiF 6 :Mn 4+ , 16 K 2 TiF 6 :Mn 4+ , 12 K 3 AlF 6 , 18 K 3 ScF 6 , 19 etc.…”

Insight into a novel rare‐earth‐free red‐emitting phosphor Li₃Mg₂NbO₆:Mn⁴⁺: Structure and luminescence properties

“…Recently, Mn 4+ -doped phosphors, which can be synthesized under air conditions, have received great interest [10]. They can exhibit broad and strong absorption in the blue region and emit emissions in deep red region.…”

“…However, the Mn 4+ ions can not availably emit in most of common hosts, unless the Mn 4+ dopants replace the symmetrical A sits of AO 6 polyhedra [10]. Therefore, it is necessary for us to choose a proper host which contains AO 6 polyhedra.…”

Preparation, structural and photoluminescence characteristics of novel red emitting Mg7Ga2GeO12:Mn4+ phosphor