# | Title | Journal | Year | Citations |
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1 | Correlation between the lowest triplet state energy level of the ligand and lanthanide(III) luminescence quantum yield | Journal of Luminescence | 1997 | 1,506 |
2 | Fluorescence quantum yields of some rhodamine dyes | Journal of Luminescence | 1982 | 1,066 |
3 | Energy of the first 4f7→4f65d transition of Eu2+ in inorganic compounds | Journal of Luminescence | 2003 | 920 |
4 | The 5d level positions of the trivalent lanthanides in inorganic compounds | Journal of Luminescence | 2000 | 860 |
5 | Point defects and luminescence centres in zinc oxide and zinc oxide doped with manganese | Journal of Luminescence | 1992 | 667 |
6 | Influence of a dielectric interface on fluorescence decay time | Journal of Luminescence | 1970 | 598 |
7 | Upconversion spectroscopy and properties of NaYF4 doped with , and/or | Journal of Luminescence | 2006 | 575 |
8 | The 4f ↔4f − 15d transitions of the trivalent lanthanides in halogenides and chalcogenides | Journal of Luminescence | 2000 | 574 |
9 | Inorganic scintillators: today and tomorrow | Journal of Luminescence | 2002 | 512 |
10 | Identification of the transition responsible for the visible emission in ZnO using quantum size effects | Journal of Luminescence | 2000 | 502 |
11 | Enhancement of red spectral emission intensity of Y3Al5O12:Ce3+ phosphor via Pr co-doping and Tb substitution for the application to white LEDs | Journal of Luminescence | 2007 | 499 |
12 | The pH dependence of fluorescein fluorescence | Journal of Luminescence | 1975 | 492 |
13 | The | Journal of Luminescence | 2005 | 487 |
14 | Mechanism of long phosphorescence of SrAl2O4:Eu2+, Dy3+ and CaAl2O4:Eu2+, Nd3+ | Journal of Luminescence | 1997 | 446 |
15 | Doped nanocrystalline materials — Physics and applications | Journal of Luminescence | 1996 | 434 |
16 | Persistent luminescence instead of phosphorescence: History, mechanism, and perspective | Journal of Luminescence | 2019 | 425 |
17 | The luminescence of nanocrystalline ZnO particles: the mechanism of the ultraviolet and visible emission | Journal of Luminescence | 2000 | 409 |
18 | Spectroscopic properties of a new light-converting device Eu(thenoyltrifluoroacetonate)3 2(dibenzyl sulfoxide). A theoretical analysis based on structural data obtained from a sparkle model | Journal of Luminescence | 1997 | 392 |
19 | Interaction of the flavonoid hesperidin with bovine serum albumin: A fluorescence quenching study | Journal of Luminescence | 2007 | 376 |
20 | Singlet exciton energy transfer in organic solids | Journal of Luminescence | 1975 | 371 |
21 | Cascade fluorescent decay in Pr3+-doped fluorides: Achievement of a quantum yield greater than unity for emission of visible light | Journal of Luminescence | 1974 | 365 |
22 | Optical properties of PbI-based perovskite structures | Journal of Luminescence | 1994 | 360 |
23 | Optical gain in semiconductors | Journal of Luminescence | 1973 | 352 |
24 | Luminescence and energy transfer of the europium (III) tungstate obtained via the Pechini method | Journal of Luminescence | 2003 | 340 |
25 | Charge transfer luminescence of Yb3+ | Journal of Luminescence | 2000 | 337 |
26 | Upconversion processes in coupled ion systems | Journal of Luminescence | 1990 | 328 |
27 | The luminescence of porous Si: the case for the surface state mechanism | Journal of Luminescence | 1993 | 327 |
28 | Blue, green and red fluorescence and energy transfer of Eu3+ in fluoride glasses | Journal of Luminescence | 1995 | 322 |
29 | 50th anniversary of the Judd–Ofelt theory: An experimentalist's view of the formalism and its application | Journal of Luminescence | 2013 | 319 |
30 | Recent achievements in research on phosphors for lamps and displays | Journal of Luminescence | 1997 | 318 |
31 | Auger ionization of semiconductor quantum drops in a glass matrix | Journal of Luminescence | 1990 | 311 |
32 | Two photon luminescence with ultraviolet excitation of trivalent praseodymium | Journal of Luminescence | 1974 | 300 |
33 | An empirical relation fitting the position in energy of the lower d-band edge for Eu2+ OR Ce3+ in various compounds | Journal of Luminescence | 1984 | 299 |
34 | Rare-earth-doped materials for applications in quantum information storage and signal processing | Journal of Luminescence | 2011 | 294 |
35 | VUV spectroscopy of luminescent materials for plasma display panels and Xe discharge lamps | Journal of Luminescence | 2001 | 293 |
36 | Electronic structure and optical properties of the lanthanide activated RE3(Al1−xGax)5O12 (RE=Gd, Y, Lu) garnet compounds | Journal of Luminescence | 2013 | 291 |
37 | Unified model of the temperature quenching of narrow-line and broad-band emissions | Journal of Luminescence | 1975 | 287 |
38 | Fluorescence properties of polycrystalline Tm3+-activated Y3Al5O12 and Tm3+-Li+ co-activated Y3Al5O12 in the visible and near IR ranges | Journal of Luminescence | 1997 | 278 |
39 | Band gap narrowing and fluorescence properties of nickel doped SnO2 nanoparticles | Journal of Luminescence | 2011 | 278 |
40 | Energy transfer between Eu3+ ions in a lattice with two different crystallographic sites: Y2O3:Eu3+, Gd2O3:Eu3+ and Eu2O3 | Journal of Luminescence | 1987 | 277 |
41 | An empirical relation fitting the position in energy of the lower d-band edge for Eu2+ or Ce3+ in various compounds | Journal of Luminescence | 1984 | 273 |
42 | Highly efficient near-infrared to visible up-conversion process in | Journal of Luminescence | 2005 | 273 |
43 | 5d-level energies of Ce3+ and the crystalline environment. IV. Aluminates and “simple” oxides | Journal of Luminescence | 2002 | 265 |
44 | Excitons in GaAs quantum wells | Journal of Luminescence | 1985 | 259 |
45 | Preparation and luminescent properties of (Ca1-x,Srx)S:Eu2+ red-emitting phosphor for white LED | Journal of Luminescence | 2005 | 259 |
46 | On the optical properties of the Mn4+ ion in solids | Journal of Luminescence | 2013 | 258 |
47 | Photoluminescence of Mg-doped p-type GaN and electroluminescence of GaN p-n junction LED | Journal of Luminescence | 1991 | 253 |
48 | Ce3+ 5d-centroid shift and vacuum referred 4f-electron binding energies of all lanthanide impurities in 150 different compounds | Journal of Luminescence | 2013 | 253 |
49 | Lanthanide light for biology and medical diagnosis | Journal of Luminescence | 2016 | 249 |
50 | Mn2+ activated green, yellow, and red long persistent phosphors | Journal of Luminescence | 2003 | 245 |