Keywords: رطوبت حرارتی; Er3+; Upconversion; Relative sensitivity; Thermal sensing; Thermal quenching;
مقالات ISI رطوبت حرارتی (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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Keywords: رطوبت حرارتی; Thermoluminescence; Normal and anomalous heating-rate effect; Simultaneous electron and hole thermal release; Thermal quenching;
Keywords: رطوبت حرارتی; Zirconium dioxide; Nanophosphors; Thermoluminescence; Thermal quenching;
Keywords: رطوبت حرارتی; Thermoluminescence; Glow curve; Activation energy; Thermal quenching;
Keywords: رطوبت حرارتی; Thermoluminescence; Thermal quenching; Quartz; Model; Luminescence efficiency
Keywords: رطوبت حرارتی; Quartz; Thermoluminescence (TL); Pre-dose effect; Thermal activation; Thermal quenching; Heating rates;
Keywords: رطوبت حرارتی; Thermoluminescence; Zirconium oxide; Thermal quenching; Pulse electron beam;
Keywords: رطوبت حرارتی; Thermoluminescence; Thermal quenching; Activation energy; Annealing
Keywords: رطوبت حرارتی; Fluorescence spectroscopy; Thermal quenching; Dissolved organic matter; Parallel factor analysis; Temperature correction;
Keywords: رطوبت حرارتی; Time resolved luminescence; Pulsed luminescence; Quartz luminescence lifetimes; Thermal quenching; Kinetic model; Radioluminescence;
Keywords: رطوبت حرارتی; Remote phosphor; Phosphor modeling; Thermal quenching; Laser diode; Optical-thermal model;
Keywords: رطوبت حرارتی; 5d-4f luminescence; Thermal quenching; Nd3+; Er3+; Tm3+; KYF4
Synthesis and luminescence properties of Mn4+-activated Ba2LaSbO6 deep-red phosphor
Keywords: رطوبت حرارتی; Phosphor; Red-emitting; Mn4+; Thermal quenching;
Design of laser-driven SiO2-YAG:Ce composite thick film: Facile synthesis, robust thermal performance, and application in solid-state laser lighting
Keywords: رطوبت حرارتی; Luminescence saturation; Thermal quenching; Laser diode; Thick film; Phosphors;
Thermal quenching of Mn4+ luminescence in Sn4+-containing garnet hosts
Keywords: رطوبت حرارتی; Phosphor-converted LEDs; Photoluminescence; Red emitting Mn4+ phosphors; Garnets; Thermal quenching;
Composition dependent spectral shift of Mn4+ luminescence in silicate garnet hosts CaY2M2Al2SiO12 (M = Al, Ga, Sc)
Keywords: رطوبت حرارتی; Garnets; Photoluminescence; Mn4+ phosphors; White LED; Thermal quenching;
Ce3+ doped BaLu2Al4SiO12: A promising green-emitting phosphor for white LEDs
Keywords: رطوبت حرارتی; BaLu1.94Al4SiO12:0.06Ce3+; Phosphors; Thermal quenching; White LEDs;
Thermoluminescence of α-Al2O3:C,Mg annealed at 1200â¯Â°C
Keywords: رطوبت حرارتی; α-Al2O3:C,Mg; Thermoluminescence; Annealing; Thermal quenching; Dosimetry; Fading;
Temperature dependent photoluminescence of Cr3+ doped Sr8MgLa(PO4)7
Keywords: رطوبت حرارتی; Thermal quenching; Cr3+ photoluminescence; Broad band NIR emission; Ortho-phosphates; Phosphor converted LEDs; NIR light sources;
Unraveling the distinct luminescence thermal quenching behaviours of A/B-site Eu3+ ions in double perovskite Sr2CaMoO6:Eu3+
Keywords: رطوبت حرارتی; Thermal quenching; Red emitting phosphors; Molybdate; LED;
Improving photoluminescence and thermal stability of CaSi2O2N2:Eu2+ phosphors by codoping lanthanide ions (Ln = Sc, La, Gd, Yb, Lu)
Keywords: رطوبت حرارتی; CaSi2O2N2:Eu2+; Lanthanide doping; Phosphors; Luminescence; Improving photoluminescence; Thermal quenching;
Investigation of an LuAG:Ce translucent ceramic synthesized via spark plasma sintering: Towards a facile synthetic route, robust thermal performance, and high-power solid state laser lighting
Keywords: رطوبت حرارتی; Luminescence saturation; Thermal quenching; Laser diode; LuAG:Ce;
Temperature dependence of 4fnâ15d1â4fn luminescence of Ce3+ and Pr3+ ions in Sr2GeO4 host
Keywords: رطوبت حرارتی; Thermal quenching; dâf luminescence; Pr3â¯+; Ce3â¯+; Strontium germanate;
Luminescence properties of translucent nano- and micro-crystalline LuPO4:Ce3+ films in the 20-700 K range of temperatures
Keywords: رطوبت حرارتی; Translucent ceramics; LuPO4; Ce3+; Photoluminescence; Vibronic structure; Thermal quenching;
Temperature sensitivity modulation through crystal field engineering in Ga3+ co-doped Gd3Al5-xGaxO12:Cr3+, Nd3+ nanothermometers
Keywords: رطوبت حرارتی; Chromium; Luminescent thermometers; Garnets; Nanocrystals; Crystal field; Thermal quenching;
Temperature dependent Cr3+ photoluminescence in garnets of the type X3Sc2Ga3O12 (Xâ¯=â¯Lu, Y, Gd, La)
Keywords: رطوبت حرارتی; Cr3+ photoluminescence; Garnets; Near infrared emitting phosphors; Racah parameters; Thermal quenching; Phosphor converted LEDs; On-chip phosphor; 3d-3d emission;
Ba2ZnWO6:Sm3+ as promising orange-red emitting phosphors: Photoluminescence properties and energy transfer process
Keywords: رطوبت حرارتی; Photoluminescence; Thermal quenching; Energy transfer; Ba2Zn1-xWO6:xSm3+;
Upconversion luminescence properties and thermal quenching mechanisms in the layered perovskite La1.9Er0.1Ti2O7 towards an application as optical temperature sensor
Keywords: رطوبت حرارتی; Layered-perovskite; X-ray diffraction; Luminescence properties; Upconversion properties; Thermal quenching;
Luminescence investigation of Ce incorporation in garnet-type Li7La3Zr2O12
Keywords: رطوبت حرارتی; Garnet; Cerium; Radioluminescence; Thermal quenching;
Investigation of thermal quenching and abnormal thermal quenching in mixed valence Eu co-doped LaAlO3 phosphor
Keywords: رطوبت حرارتی; Phosphor; Thermal quenching; Configuration coordinate model; Energy transfer; Thermal stimulation;
Temperature dependence of optically stimulated luminescence of α-Al2O3:C,Mg
Keywords: رطوبت حرارتی; α-Al2O3:C,Mg; Optically stimulated luminescence; Thermal assistance; Thermal quenching;
Thermally-assisted optically stimulated luminescence from deep electron traps in α-Al2O3:C,Mg
Keywords: رطوبت حرارتی; α-Al2O3:C,Mg; Thermally-assisted optically stimulated luminescence; Deep trap; Thermal assistance; Thermal quenching; Dose response;
Structure, luminescence and thermal quenching properties of Eu doped Sr2âxBaxSi5N8 red phosphors
Keywords: رطوبت حرارتی; (Ba,Sr)2Si5N8; Luminescence; Thermal quenching; Phosphor;
Temperature assisted radiative and non-radiative recombination mechanisms in sillimanite (Al2SiO5) mineral
Keywords: رطوبت حرارتی; Thermoluminescence; Annealing; Trap; Recombination; Thermal quenching;
The nature of Bi3+ luminescence in the double perovskite, La2LiSbO6
Keywords: رطوبت حرارتی; La2LiSbO6; Double perovskite; Bi3+; Localized emission; Conduction band; Thermal quenching;
Synthesis and optical properties of Y2Mo4O15 doped by Pr3+
Keywords: رطوبت حرارتی; Solid state synthesis; Praseodymium; Photoluminescence; Optical band gap; Thermal quenching;
Luminescence and luminescence quenching of Sr3Lu2(Si3O9)2:Ce3+ phosphors
Keywords: رطوبت حرارتی; Phosphor; Thermal quenching; Quantum efficiency; Silicate; Luminescence;
Improved scintillation luminescence and thermal stability of In2Si2O7 ceramic phosphor
Keywords: رطوبت حرارتی; Scintillators; Luminescence; Inorganic compounds; Optical materials and properties; Thermal quenching;
Features of an annealing-induced thermoluminescence peak in α-Al2O3:C,Mg
Keywords: رطوبت حرارتی; α-Al2O3:C,Mg; Thermoluminescence; Glow curve; Thermal quenching; Annealing; Fading;
Site selective, time and temperature dependent spectroscopy of Eu3+ doped apatites (Mg,Ca,Sr)2Y8Si6O26
Keywords: رطوبت حرارتی; Eu3+ photoluminescence; Silicate apatites; Site selective photoluminescence; Luminescence decay kinetics; Thermal quenching; Time dependent spectroscopy;
Luminescence and luminescence quenching of efficient GdB5O9:Eu3+ red phosphors
Keywords: رطوبت حرارتی; Pentaborates; Thermal quenching; CIE colour coordinates; Luminous efficacy; Quantum efficiency;
Thermoluminescence of K-Mg-Al-Zn fluorophosphate glass
Keywords: رطوبت حرارتی; Thermoluminescence; Phosphate glass; Kinetic analysis; Glow curve; Thermal quenching;
Novel red-emitting nitridoborates - SrBa8[BN2]6:Ln2+/3+ (Ln=Pr3+, Eu2+)
Keywords: رطوبت حرارتی; Nitridoborates; Photoluminescence (PL); Thermal quenching; Red-emitting LED phosphors; Solid-state chemistry; SrBa8(BN2)6;
Red emitting K2NbF7:Mn4+ and K2TaF7:Mn4+ for warm-white LED applications
Keywords: رطوبت حرارتی; Mn4+ phosphors; Optical band gap; Band structure; K2NbF7:Mn4+; K2TaF7:Mn4+; Photoluminescence; Decay curves; Thermal quenching; Warm-white pcLEDs;
Unique properties of ZnTiF6·6H2O:Mn4+ red-emitting hexahydrate phosphor
Keywords: رطوبت حرارتی; Phosphor; ZnTiF6·6H2O; Luminescence; Thermal quenching; Tb3+;
Determination of trapping parameters in BeO ceramics in both quenched as well as reconstructed thermoluminescence glow curves using various analysis methods
Keywords: رطوبت حرارتی; BeO; Reconstruction; Kinetic parameters; Thermoluminescence (TL); Thermal quenching;
Preparation and optical properties of a novel double-perovskite phosphor, Ba2GdNbO6:Mn4+, for light-emitting diodes
Keywords: رطوبت حرارتی; Mn4+; Red phosphor; Luminescence; Thermal quenching;
Comprehensive kinetic analysis of thermoluminescence peaks of α-Al2O3:C,Mg
Keywords: رطوبت حرارتی; α-Al2O3:C,Mg; Thermoluminescence; Phosphorescence; Thermal quenching; Activation energy;
Thermoluminescence of SrAl2O4:Eu2+, Dy3+: Kinetic analysis of a composite-peak
Keywords: رطوبت حرارتی; Thermoluminescence; Kinetic-analysis; SrAl2O4:Eu2+,Dy3+; Thermal quenching; Collocation;
Calculation of thermal quenching parameters in BeO ceramics using solely TL measurements
Keywords: رطوبت حرارتی; Thermal quenching; Efficiency; Reconstruction; De-convolution; TL;