[1] Y. C. Kang, I. W. Lenggoro, S. B. Park, K. Okuyama, YAG:Ce phosphor particles prepared by ultrasonic spray pyrolysis, Mater. Res. Bull., 2000, 35(5), 789-798.
[2] T. Hussain, Enabling low amounts of YAG: Ce3+ to convert blueinto white light with plasmonic Au nanoparticles, Nanoscale, 2015, 7(23),10350-10356.
[3] S. H. Lee, J. H. Yi, J. H. Kim, Y. N. Ko, Y. C. Kang, Characteristics of Eu2+-doped Ca-α-SiAlON phosphor powders prepared by spray pyrolysis process, Opt. Mater., 2011, 33, 538-542
[4] K. V. Krishnaiah, K. U. Kumar, Spectroscopic properties of Dy3+-doped oxyfluoride glasses for white light emitting diodes, Mater. Express, 2013, 3(1),61-70.
[5] S. Sharma, N. Brahme, D. P. Bisen, P. Dewangan, Cool white light emission from Dy3+ activated alkaline alumino silicate phosphors, Opt. Express, 2018, 26, 29495-29508
[6] F. Yang, L. Qiao, H. Ren, F. Yan, Luminescence analysis of Mn4+,Zn2+: Li2TiO3 red phosphors, J. Lumin., 2018, 194, 179-184
[7] Z. Zhou, Y. Zhong, M. Xia, N. Zhou, B. Lei, J. Wang, F. Wu, Tunable dual emission of Ca3Al4ZnO10:Bi3+,Mn4+ via energy transfer for indoor plant growth lighting, J. Mater. Chem. C, 2018, 6, 8914-8922
[8] X. Huang, J. Liang, B.Li, L. Sun, J. Lin, High-efficiency and thermally stable far-red-emitting NaLaMgWO6:Mn4+ phosphors for indoor plant growth light-emitting diodes, Opt. Lett., 2018, 43, 3305-3308
[9] J.Zhang, Y.Dai, B.Liu, B.Han, Luminescence quenching of Er3+/Sm3+ in color-tunable NaLaMgWO6:Er3+,Sm3+ phosphor, Optik (Munich, Ger.), 2018, 172, 1129–1133
[10] B. Han, B. Liu, Y. Dai, J. Zhang, H. Shi, Alkali metal ion substitution induced luminescence enhancement of NaLaMgWO6:Eu3+ red phosphor for white light-emitting diodes, Ceram. Int., 2019, 45(3), 3419-3424
[11] K. Naveen Kumar, L. Vijayalakshmi, J. Choi, Investigation of Upconversion Photoluminescence of Yb3+/Er3+:NaLaMgWO6 Noncytotoxic Double-Perovskite Nanophosphors, Inorg. Chem., 2019, 58, 2001-2011
[12] Q.Liu, J.Guo, M.H.Fan, Q.Zhang, S.Liu, Ka-Leung.Wong, Z.Y.Liu, B.Wei, Fast synthesis of Dy3+ and Tm3+ co-doped double perovskite NaLaMgWO6: a thermally stable single-phase white-emitting phosphor for WLEDs, J. Mater. Chem. C,2020,8,2117-2122
[13] B.Wei, Z.Y.Liu,C.Xie,S.Yang,W.T.Tang,A.W.Gu,Wing-Tak Wong,Ka-Leung Wong,Fast synthesis of red Li3BaSrLn3(WO4)8:Eu3+ phosphors for white LEDs under near-UV excitation by a microwave-assisted solid state reaction method and photoluminescence studies, J. Mater. Chem. C,2015,3,12322-12327
[14] K.Shan, Z.Z.Yi, X.T.Yin, D.Dastan, F.Altaf, H.Garmestani, F.M. Alamgir,Mixed conductivity evaluation and sensing characteristics of limiting current oxygen sensors, Surf. Interfaces, 2020, 21, 100762
[15] W.T.Hu, T.Li, X.Liu, D.Dastan, K.W.Ji, P.J. Zhao,1550 nm pumped upconversion chromaticity modulation in Er3+ doped double perovskite LiYMgWO6 for anti-counterfeiting,J. Alloys Compd., 2020, 818,152933
[16] K.Shan, Z.Z.Yi, X.T.Yin, D.Dastan, H.Garmestani, Y-doped CaZrO3/Co3O4 as novel dense diffusion barrier materials for a limiting current oxygen sensor, Dalton Trans., 2020, 49, 8549-8556
[17] K.Shan, Z.Z.Yi, X.T.Yin, D.Dastan, F.Altaf, H.Garmestani, Conductivity and Mixed Conductivity of a Novel Dense Diffusion Barrier and Sensing Properties of Limiting Current Oxygen Sensors, Dalton Trans., 2020, 49, 6682-6692
[18] Q. Sun, S. Wang, B. Li, H. Guo, X. Huang, Synthesis and photoluminescence properties of deep red-emitting CaGdAlO4:Mn4+ phosphors for plant growth LEDs, J. Lumin., 2018, 203, 371-375
[19] M. Shaw, M. D. Fairchild, Evaluating the 1931 CIE color-matching functions, Color Res. Appl., 2002, 27, 316-329
[20] R.Shakoury, A.Arman, Ţălu, Ş. et al, Stereometric analysis of TiO2 thin films deposited by electron beam ion assisted. Opt Quant Electron ,(2020,52, 270
[21] D.Dastan, N.Chaure & M.Kartha, Surfactants assisted solvothermal derived titania nanoparticles: synthesis and simulation. J Mater Sci: Mater Electron, 2017,28, 7784–7796
[22] D.Dastan, P.U. Londhe, N.B.Chaure,Characterization of TiO2 nanoparticles prepared using different surfactants by sol–gel method. J Mater Sci: Mater Electron, 2014,25, 3473–3479
[23] D.Dastan,Nanostructured Anatase Titania Thin Films Prepared by Sol-Gel Dip Coating Technique, J. Atomic, Molecul., Condensate Nano Phys. (JAMCNP), 2015,2(2),109-114
[24] D.Dastan,N.Chaure, Influence of surfactants on TiO2 nanoparticles grown by Sol-Gel Technique, J. Mater. Mech. Manufact., 2014,2 (1), 21-24
[25] D.Dastan, S.L.Panahi, N.B. Chaure, Characterization of titania thin films grown by dip-coating technique. J Mater Sci: Mater Electron, 2016,27, 12291–12296