[HTML][HTML] Eu3+ activated molybdates–Structure property relations
Eu 3+ activated phosphors have been a subject of scientific investigation for more than 100
years. Various host materials have been employed, among which molybdate hosts play an …
years. Various host materials have been employed, among which molybdate hosts play an …
Narrow-band red phosphors of high colour purity based on Eu 3+-activated apatite-type Gd 9.33 (SiO 4) 6 O 2
A series of new red phosphors based on apatite-type gadolinium silicate host, Gd9. 33−
xEux (SiO4) 6O2 (0.03< x< 1.87), have been synthesised and analysed. The phosphors …
xEux (SiO4) 6O2 (0.03< x< 1.87), have been synthesised and analysed. The phosphors …
Ce3+→ Cr3+ energy transfer in Y3Al3MgSiO12 garnet host and application in horticultural lighting
In this study, the photoluminescence properties of Y 3 Al 3 MgSiO 12: Cr 3+(YMASG: Cr 3+)
and Y 3 Al 3 MgSiO 12: 2% Ce 3+, Cr 3+(YMASG: 2% Ce 3+, Cr 3+) were investigated, and …
and Y 3 Al 3 MgSiO 12: 2% Ce 3+, Cr 3+(YMASG: 2% Ce 3+, Cr 3+) were investigated, and …
Structural and spectroscopic properties of self-activated monoclinic molybdate BaSm2 (MoO4) 4
VV Atuchin, AS Aleksandrovsky, MS Molokeev… - Journal of Alloys and …, 2017 - Elsevier
The crystal structure of new monoclinic molybdate BaSm 2 (MoO 4) 4 is refined in
monoclinic unit cell C2/m with cell parameters a= 5.29448 Å, b= 12.7232 Å, c= 19.3907 Å …
monoclinic unit cell C2/m with cell parameters a= 5.29448 Å, b= 12.7232 Å, c= 19.3907 Å …
Growth mechanism and vibrational and optical properties of SrMoO4: Tb3+, Sm3+ particles: green–orange tunable color
DF Dos Santos, LX Lovisa, AAG Santiago… - Journal of materials …, 2020 - Springer
A SrMoO 4 series co-doped with Tb 3+ and Sm 3+ was successfully prepared by the
sonochemical method. The particles were characterized by X-ray diffraction, Raman …
sonochemical method. The particles were characterized by X-ray diffraction, Raman …
Red phosphor based on Eu3+-doped Y2 (MoO4) 3 incorporated with Au NPs synthesized via Pechini's method
Structural, morphological and spectroscopic characterization of the Eu 3+-doped Y 2 (MoO
4) 3 red phosphor incorporated with Au nanoparticles (Au NPs) synthesized via Pechini's …
4) 3 red phosphor incorporated with Au nanoparticles (Au NPs) synthesized via Pechini's …
Systematic Crystallization of NH4Ln(MoO4)2 as a Family of Layered Compounds (Ln = La–Lu and Y), Derivation of Ln2Mo4O15, Crystal Structure, and …
Z Xu, Q Zhu, X Li, X Sun, JG Li - Inorganic Chemistry, 2022 - ACS Publications
NH4Ln (MoO4) 2 (Ln= La–Lu lanthanide, Y) was crystallized via hydrothermal reaction as a
new family of layered materials, from which phase-pure Ln2Mo4O15 was successfully …
new family of layered materials, from which phase-pure Ln2Mo4O15 was successfully …
Optical Properties of Red-Emitting Rb2Bi(PO4)(MoO4):Eu3+ Powders and Ceramics with High Quantum Efficiency for White LEDs
J Grigorjevaite, E Ezerskyte, A Minderyte, S Stanionyte… - Materials, 2019 - mdpi.com
There are several key requirements that a very good LED phosphor should meet, ie, strong
absorption, high quantum efficiency, high colour purity, and high luminescence quenching …
absorption, high quantum efficiency, high colour purity, and high luminescence quenching …
Synthesis and optical properties of highly efficient Na7Mg13La (PO4) 12: Eu3+ powders with excellent thermal stability
L Klimkeviciene, E Parafjanovic, V Klimkevicius… - Ceramics …, 2024 - Elsevier
In the pursuit of efficient red-emitting phosphors, a series of red-emitting Na 7 Mg 13 La (PO
4) 12: Eu 3+ phosphors was prepared using a high-temperature solid-state synthesis …
4) 12: Eu 3+ phosphors was prepared using a high-temperature solid-state synthesis …
Synthesis of Sr2Si5N8:Ce3+ phosphors for white LEDs via efficient chemical vapor deposition
Novel chemical vapor deposition (CVD) process was successfully developed for the growth
of Sr2Si5N8: Ce3+ phosphors with elevated luminescent properties. Metallic strontium was …
of Sr2Si5N8: Ce3+ phosphors with elevated luminescent properties. Metallic strontium was …