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Journal of Materials Science: Materials in Electronics
Erschienen in: Journal of Materials Science: Materials in Electronics 6/2018

15.12.2017

PL and ESR of Gd3+ in LaMgAl11O19 phosphors

verfasst von: Vijay Singh, N. Singh, M. S. Pathak, S. Watanabe, T. K. Gundu Rao, Pramod K. Singh, Young-Wan Kwon

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 6/2018

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Abstract

LaMgAl11O19 doped with different concentrations of gadolinium phosphors were synthesized by combustion and characterized using X-Ray diffraction to identify the crystalline phase. Photoluminescence studies on the sample showed emission peaks at 313 and 306 nm with λexi = 273 nm corresponding to the 6P J 8S7/2 transitions of Gd3+ ions. In phosphors with low dopant concentrations, dominant electron spin resonance lines are observed with g eff ~ 1.96, 1.98, 4.2, and 6.0. With increasing concentrations, the spectrum appears to be U-shaped, and main lines are seen at g eff ~ 1.98, 2.04, 2.8, 4.1 and 6.2. Distortions in the immediate environment of Gd3+ ions lead to relatively strong crystal fields and the appearance of lines in the low field region of the spectrum.
Vorheriger Artikel Facile synthesis of three-dimensional hierarchical NiO microflowers for efficient room temperature H2S gas sensor
Nächster Artikel One pot synthesis of nitrogen-doped hierarchical porous carbon derived from phenolic formaldehyde resin with sodium citrate as activation agent for supercapacitors

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Literatur
1.
P. Jana, P.S. Jayan, S. Mandal, K. Biswasa, Thermal cycling life and failure analysis of rare earth magnesium hexaaluminate based advanced thermal barrier coatings at 1400 °C. Surf. Coat. Technol. 328, 398–409 (2017)CrossRef
2.
L. Haoran, W. Chang-An, Z. Chenguang, T. Shuyan, Thermo-physical properties of rare-earth hexaaluminates LnMgAl11O19 (Ln: La, Pr, Nd, Sm, Eu and Gd) magnetoplumbite for advanced thermal barrier coatings. J. Eur. Ceram. Soc. 35, 1297–1306 (2015)CrossRef
3.
Y.-H. Wang, J.-H. Ouyang, Z.-G. Liu, Preparation and thermo-physical properties of La1–xNdxMgAl11O19 (x = 0, 0.1, 0.2) ceramics. J. Alloys Compd. 485, 734–738 (2009)CrossRef
4.
A.A. Pathak, P.J. Yadav, R.A. Talewar, C.P. Joshi, S.V. Moharil, Blue emission of Eu2+ doped LaMgAl11O19 phosphor prepared by combustion synthesis method. AIP Conf. Proc. 1728, 020248-1–020248-4 (2016)
5.
W. Ge, H. Zhang, J. Wang, D. Ran, S. Sun, H. Xia, J. Liu, X. Xu, X. Hu, M. Jiang, Growth and thermal properties of Co2+:LaMgAl11O19 crystal. J. Cryst. Growth 282, 320–329 (2005)CrossRef
6.
M.A. Khan, M. Duraiselvam, S.S. Panwar, T. Jena, S.R. Dhineshkumar, Thermo-mechanical characterization of laser textured LaMgAl11O19/YSZ functionally graded thermal barrier coating. Surf. Coat. Technol. 321, 146–155 (2017)CrossRef
7.
H. Qi, X. Hou, Y. Li, Y. Sun, H. Zhang, J.Wang Co2+:LaMgAl11O19 saturable absorber Q-switch for a flash lamp pumped 1.54 μm Er:glass laser. Opt. Exp. 15, 3195–3200 (2007)CrossRef
8.
H.T. Huang, J.L. He, C.H. Zuo, H.J. Zhang, J.Y. Wang, Y. Liu, H.T. Wang, Co2+:LMA crystal as saturable absorber for a diode-pumped passively Q-switched Nd:YVO4 laser at 1342 nm. Appl. Phys. B 89, 319–321 (2007)CrossRef
9.
X. Min, M. Fang, Z. Huang, Y. Liu, C. Tang, X. Wu, Luminescent properties of white-light-emitting phosphor LaMgAl11O19:Dy3+. Mater. Lett. 125, 140–142 (2014)CrossRef
10.
X. Min, M. Fang, Z. Huang, H. Liu, Y. Liu, C. Tang, X. Wu, A novel green phosphor LaMgAl11O19:Ho3+ for near-UV/blue light-pumped white light-emitting diodes. Chem. Phys. Lett. 618, 182–185 (2015)CrossRef
11.
M. Gasperin, M.C. Saine, A. Kahn, F. Laville, A.M. Lejus, Influence of Mn2+ ions substitution on the structure of lanthanum hexaaluminates with magnetoplumbite structure. J. Solid State Chem. 54, 61–69 (1984)CrossRef
12.
H. Lu, C.A. Wang, C. Zhang, Low thermal conductivity Sr2+, Zn2+ and Ti4+ ions co-doped LaMgAl11O19 for potential thermal barrier coating applications. Ceram. Int. 40, 16273–16279 (2014)CrossRef
13.
J.L. Sommerdijk, J.A.W. Van Der Does De Bye, P.H.J.M. Verberne, Decay of the Ce3+ luminescence of LaMgAl11O19:Ce3+ and of CeMgAl11O19 activated with Tb3+ or Eu3+. J. Lumin. 14, 91–99 (1976)CrossRef
14.
B. Viana, C. Garapon, I.A.M. Lejus, D. Vivien, Cr3+→Nd3+energy transfer in the LaMgA111O19:Cr, Nd laser material. J. Lumin. 47, 73–83 (1990)CrossRef
15.
V. Singh, S. Watanabe, T.K. Gundu Rao, H.-Y. Kwak, Luminescence and defect centres in Tb3+ doped LaMgAl11O19 phosphors. Solid State Sci. 12, 1981–1987 (2010)CrossRef
16.
V. Singh, R.P.S. Chakradhar, J.L. Rao, S.J. Dhoble, S.H. Kim, Electron paramagnetic resonance and photoluminescence studies of LaMgAl11O19:Mn2+ green phosphors. J. Electron. Mater. 43, 4041–4047 (2014)CrossRef
17.
X. Min, M. Fang, Z. Huang, Y. Liu, C. Tang, T. Qian, X. Wu, Synthesis and luminescence properties of nitrided lanthanum magnesium hexaluminate LaMgAl11O19 phosphors. Ceram. Int. 40, 4535–4539 (2014)CrossRef
18.
V. Singh, R.P.S. Chakradhar, J.L. Rao, H.-Y. Kwak, Enhanced blue emission and EPR study of LaMgAl11O19:Eu phosphors. J. Lumin. 131, 247–252 (2011)CrossRef
19.
R. Martín-Rodríguez, R. Valiente, M. Bettinelli, Room-temperature green upconversion luminescence in LaMgAl11O19:Mn2+,Yb3+ upon infrared excitation. Appl. Phys. Lett. 95, 091913–091913 (2009)CrossRef
20.
L. Fu, G. Liu, X. Yang, Z. Fua, Y. Yang, Up-conversion luminescent properties and optical thermometry of LaMgAl11O19:Yb3+/Er3+ phosphors, Ceram. Int. 41, 14064–14069 (2015)CrossRef
21.
R.M. MacKie, Effects of ultraviolet radiation on human health. Radiat. Prot. Dosim 91, 15–18 (2000)CrossRef
22.
N.J. Lowe, Home ultraviolet phototherapy. Semin. Dermatol. 11, 284–286 (1992)
23.
A. Reich, K. Mędrek, Effects of narrow band UVB (311 nm) irradiation on epidermal cells. Int. J. Mol. Sci. 14, 8456–8466 (2013)CrossRef
24.
C.-H. Huang, T.-M. Chen, B.-M. Cheng, Luminescence investigation on ultraviolet-emitting rare-earth-doped phosphors using synchrotron radiation. Inorg. Chem. 50, 6552–6556 (2011)CrossRef
25.
V. Singh, G. Sivaramaiah, J.L. Rao, S.H. Kim, Optical and EPR studies of Gd2Zr2O7 phosphors prepared via solution combustion method. Phys. B 416, 101–105 (2013)CrossRef
26.
S.K. Saji, R.V. Kumar, S.M. Eappen, P.R. Sobhana Wariar, Optical and dielectric characterization of gadolinium aluminate ceramic nanoparticles synthesized by combustion technique. Mater. Chem. Phys. 193, 189–195 (2017)CrossRef
27.
G. Varughese, Characterization and optical study on zinc sulphide nanostructures doped with gadolinium ions, Mater. Today 3, 282–288 (2016)CrossRef
28.
M. Shahid, S. Shafi, M.F. Aboud, M.F. Warsi, M. Asghar, I. Shakir, Impacts of Co2+and Gd3+co-doping on structural, dielectric and magnetic properties of MnFe2O4nanoparticles synthesized via micro-emulsion route. Ceram. Int 43, 14096–14100 (2017)CrossRef
29.
E.M. Shishonok, S.V. Leonchik, J.W. Steeds, D. Wolverson, Strong ultraviolet luminescence from cerium- and gadolinium-doped cubic boron nitride. Diam. Relat. Mater. 16, 1602–1607 (2007)CrossRef
30.
V. Singh, S. Borkotoky, A. Murali, J.L. Rao, T.K. Gundu Rao, S.J. Dhoble, Electron paramagnetic resonance and photoluminescence investigation on ultraviolet-emitting gadolinium-ion-doped CaAl12O19 phosphors, Spectrochim Acta 139, 1–6 (2015)CrossRef
31.
V. Singh, G. Sivaramaiah, J.L. Rao, S. Watanabe, T.K. Gundu Rao, S.S. Jagtap, P.K. Singh, New ultraviolet B emission from gadolinium activated BaZrO3 phosphor - An electron paramagnetic resonance and optical study. J. Alloys Compd. 648, 1083–1089 (2015)CrossRef
32.
G. Vijayaprasath, R. Murugan, Y. Hayakawa, G. Ravi, Optical and magnetic studies on Gd doped ZnO nanoparticles synthesized by co-precipitation method. J. Lumin. 178, 375–383 (2016)CrossRef
33.
M.S. Pathak, N. Singh, V. Singh, S. Watanabe, T.K. Gundu, J.K. Rao, Lee, Narrowband ultraviolet B emission from gadolinium activated Y3Ga5O12 nano-garnets. Mater. Res. Bull. 97, 512–516 (2018)CrossRef
34.
V. Singh, G. Sivaramaiah, J.L. Rao, S.J. Dhoble, S.H. Kim, Mn2+, Eu2+ and Eu3+ emission in co-doped LaAl11O18 phosphors. Mater. Chem. Phys. 149–150, 202–208 (2015)CrossRef
35.
Y. Wakui, Y.J. Shan, K. Tezuka, H. Imoto, M. Ando, Crystal-site engineering approach for preparation of MgB2O4:Mn2+, Mn4+ (B = Al, Ga) phosphors: control of green/red luminescence properties. Mater. Res. Bull. 90, 51–58 (2017)CrossRef
36.
S.R. Jain, K.C. Adiga, V.R. Pal Verneker, A new approach to thermochemical calculations of condensed fuel-oxidizer mixtures. Combust. Flame 40, 71–79 (1981)CrossRef
37.
K. Binnemans, C. Görller-Walrand, J.L. Adam, Spectroscopic properties of Gd3+-doped fluorozirconate glass. Chem. Phys. Lett. 280, 333–338 (1997)CrossRef
38.
V. Singh, N. Singh, S. Watanabe, T.K. Gundu Rao, M.S. Pathak, A.K. Srivastava, P.K. Singh, S.J. Dhoble, Gadolinium activated CaZr4O9 ultraviolet B emitting phosphor: a luminescence and EPR study. J. Electron. Mater. 46, 1943–1947 (2017)CrossRef
39.
V. Singh, G. Sivaramaiah, J.L. Rao, S.H. Kim, Luminescence and electron paramagnetic resonance investigation on ultraviolet emitting Gd-doped MgAl2O4 phosphors. J. Lumin. 143, 162–168 (2013)CrossRef
40.
E.J. Bosze, G.A. Hirata, L.E. Shea-Rohwer, J. McKittrick, Improving the efficiency of a blue-emitting phosphor by an energy transfer from Gd3+ to Ce3+. J. Lumin. 104, 47–54 (2003)CrossRef
41.
V. Singh, G. Sivaramaiah, M. Mohapatra, J.L. Rao, N. Singh, M.S. Pathak, P.K. Singh, S.J. Dhoble, Probing the thermodynamic and magnetic properties of UV-B (ultraviolet-B) emitting GdAlO3 phosphors by ESR and optical technique. J. Electron. Mater. 46, 1137–1144 (2017)CrossRef
42.
U. Vetter, J. Zenneck, H. Hofsäss, Intense ultraviolet cathodoluminescence at 318 nm from Gd3+ -doped AlN Appl. Phys. Lett. 83, 2145–2147 (2003)
43.
D. Lo, V.N. Makhov, N.M. Khaidukov, J.C. Krupa, Two-photon excitation to 4f65d configuration of Gd3+ in LiGdF4 crystal by KrF excimer laser. J. Lumin. 28, 119–120 (2006)
44.
H. van Weelden, H. Baart, E. de la Faille, J.C. Young, J.C. van der Leun, A new development in UVB phototherapy of psoriasis. Br. J. Dermatol 119, 11–19 (1988)CrossRef
45.
W. Köster, A. Wiskemann, Phototherapy with UV-B in vitiligo. Z. Hautkr. 65, 1022–1024 (1990)
46.
S. Dogra, A.J. Kanwar, Narrow band UVB phototherapy in dermatology. Indian J. Dermatol. Venereol. Leprol. 70, 205–209 (2004)
47.
P. Asawanonda, S.O. Klahan, Tetrahydrocurcuminoid cream plus targetednarrowband UVB phototherapy for vitiligo: a preliminary randomized controlledstudy. Photomed. Laser Surg. 28, 679–684 (2010)CrossRef
48.
P. Diederen, H. Weelden, C. Sanders, J. Toonstra, W. Vloten, Narrowband UVB and psoralen-UVA in the treatment of early-stage mycosis fungoides: A retrospective study. J. Am. Acad. Dermatol 48(2), 215 (2003)CrossRef
49.
H.J.A. Koopmans, M.M.A. Perik, B. Nieuwenhuij, P.J. Gellings, The interpretation of broadened Gd3+ EPR spectra of polycrystalline ceramics. Phys. Stat. Sol. B 120, 745–751 (1983)CrossRef
50.
D.I. Griscom, Electron spin resonance in glasses. J. Non-Cryst. Solids 40, 211–272 (1980)CrossRef
51.
I.E. Iton, C.M. Brodbeck, S.L. Suib, G.D. Stucky, EPR study of europium ions in type A zeolite: the general classification of the EPR spectra of S-state rare-earth ions in disordered polycrystalline or glassy matrices. J. Chem. Phys. 79, 1185–1196 (1983)CrossRef
52.
D. Furniss, E.A. Harris, D.B. Hollis, EPR of Gd3+ and Eu2+ in fluorozirconate glasses. J. Phys. C 20, L147-Ll50 (1987)CrossRef
53.
A.S. Rao, J.L. Rao, V.V.R.K. Kumar, C.K. Jayasankar, S.V.J. Lakshman, Electron paramagnetic resonance and optical absorption spectra of Gd3+ ions in alkali cadmium borosulphate glasses. Phy. Sat. Sol. B 174, 183–191 (1992)CrossRef
54.
C.M. Brodbeck, L.E. Iton, The EPR spectra of Gd3+ and Eu2+ in glassy systems. J. Chem. Phys. 83, 4285–4299 (1985)CrossRef
55.
A. Kahn, A.M. Lejus, M. Madsac, J. Thery, D. Vivien, Preparation, structure, optical, and magnetic properties of lanthanide aluminate single crystals (LnMAl11O19). J. Appl. Phys. 52, 6864–6869 (1981)CrossRef
56.
J.G. Park, A.N. Cormack, Defect energetics and nonstoichiometry in lanthanum magnesium hexaaluminate. J. Solid State Chem. 130(2), 199–212 (1997)CrossRef
57.
R.D. Shannon, Revised effective ionic radii and systematic studies of interatomie distances in halides and chaleogenides. Acta Cryst. A32, 751–767 (1976)CrossRef
58.
X. Min, M. Fang, Z. Huang, Y. Liu, C. Tang, H. Zhu, X. Wu, Preparation and luminescent properties of orange reddish emitting phosphor LaMgAl11O19:Sm3+. Opt. Mater. 37, 110–114 (2014)CrossRef
59.
J. Li, Y. Liu, Effects of Sm3+ and Gd3+ co-doping on thermo-physical properties of LaMgAl11O19. Trans. Ind. Ceram. Soc. 73, 270–276 (2014)CrossRef
60.
M.M. Kuklja, Defects in yttrium aluminium perovskite and garnet crystals: atomistic study. J. Phys. 12, 2953–2967 (2000)
61.
A.P. Patel, M.R. Levy, R.W. Grimes, R.M. Gaume, R.S. Frigelson, K.J. McClellan, C.R. Stanek, Mechanisms of nonstoichiometry in Y3Al5O12. Appl. Phys. Lett. 93, 191902 (2008)CrossRef
62.
J. Dong, K. Lu, Noncubic symmetry in garnet structures studied using extended X-ray-absorption fine-structure spectra. Phys. Rev. B 43, 8808–8821 (1991)CrossRef
63.
D. Truong, M.K. Devaraju, T. Tomai, I. Honma, Direct observation of antisite defects in LiCoPO4 cathode materials by annular dark- and bright-field electron microscopy. ACS Appl. Mater. Interfaces 5, 9926–9932 (2013)CrossRef
64.
N. Yuan, X. Liu, F. Meng, D. Zhou, J. Meng, First-principles study of La2CoMnO6: a promising cathode material for intermediate-temperature solid oxide fuel cells because of intrinsic Co-Mn cation disorder. Ionics, 21, 1675–1681 (2015)CrossRef
Metadaten
Titel
PL and ESR of Gd3+ in LaMgAl11O19 phosphors
verfasst von
Vijay Singh
N. Singh
M. S. Pathak
S. Watanabe
T. K. Gundu Rao
Pramod K. Singh
Young-Wan Kwon
Publikationsdatum
15.12.2017
Verlag
Springer US
Erschienen in
Journal of Materials Science: Materials in Electronics / Ausgabe 6/2018
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI
https://doi.org/10.1007/s10854-017-8414-0

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