A novel phosphor for glareless white light-emitting diodes

“…[1][2][3][4] Among these applications, white light emitting diodes (WLEDs) have been regarded as the next generation illumination tools due to their energy saving ability, environmental friendliness, and high efficiency merits over the traditional incandescent and uorescent lamps. 5,6 Since WLEDs fabricated with three (blue, green, red) LEDs need complicated technology and high expense, 6,7 the main approach to obtain WLEDs is the combination of blue or ultra violet LED with down converting phosphors, known as phosphor-converted WLEDs.…”

Structure and photoluminescence properties of novel Ca₂NaSiO₄F:Re (Re = Eu²⁺, Ce³⁺, Tb³⁺) phosphors with energy transfer for white emitting LEDs

“…[1][2][3][4] Among these applications, white light emitting diodes (WLEDs) have been regarded as the next generation illumination tools due to their energy saving ability, environmental friendliness, and high efficiency merits over the traditional incandescent and uorescent lamps. 5,6 Since WLEDs fabricated with three (blue, green, red) LEDs need complicated technology and high expense, 6,7 the main approach to obtain WLEDs is the combination of blue or ultra violet LED with down converting phosphors, known as phosphor-converted WLEDs.…”

Structure and photoluminescence properties of novel Ca₂NaSiO₄F:Re (Re = Eu²⁺, Ce³⁺, Tb³⁺) phosphors with energy transfer for white emitting LEDs

“…Plants grow better under red LEDs compared to those grown under daylight fluorescent (white) lamps because red light is close to the maximum absorbance for chlorophyll. 16,17 In this regard, searching for a new red phosphor is one of the big challenges in the field of luminescent materials particularly when a red-emitting phosphor is preferred in some occasions with high color purity.The basic requirements of potential red phosphor for a blue chip scheme are (1) it should have significant absorption in blue; 18,19 (2) it must have high quantum efficiency of the red emission; 20 (3) it must be capable of retaining its luminescent characteristics over long periods at 150°C. 21 Recently, nonrare earth-based eco-friendly phosphors, Mn 4+ -doped crystalline host materials, which can be synthesized under milder conditions, have received great interest.…”

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

“…There is also a special class of Eu 2+ -activated phosphors that exhibit the characteristics of both normal 4 f 6 5 d →4 f 7 transitions (e.g., large transition probabilities for emission and excitation) and anomalous luminescence (e.g., very large bandwidth and Stokes shift of emission)101112131415. Based on the relationship between the luminescence and host crystalline structure in this special class of Eu 2+ -activated phosphors, Poort et al attributed this type of emission to 4 f 6 5 d →4 f 7 transitions and suggested that the linear chain structure of large cations in the lattice (depending on the values of lattice parameters) contributed to this special luminescence10.…”

New localized/delocalized emitting state of Eu2+ in orange-emitting hexagonal EuAl2O4