193 references miniaturization, edited by h.d. gilbert...
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193
References
[1] R. Feynman, “There’s plenty of room at the bottom”, in
Miniaturization, edited by H.D. Gilbert, Reinhold, New York
(1961).
[2] R. A. Andrievski and A.M. Glezer. “Size effects in Properties of
Nanomaterials.” Elsevier Science Ltd. 44(2000) 1621.
[3] G.C. Hadjipanayis, R.W. Siegel, Nanophase Materials:
Synthesis- Properties-Applications, NATO ASI Series E Vol.
260, Kluwer, Dordrecht, (1993).
[4] U. Woggon; “optical properties of semiconductor quantum
dots” Springer Veralag Berlin Heidelberg (1997).
[5] C Burda, X. Chen, R Narayanan and M. A. El-Sayed, Chem.
Rev.105 (2005)1025.
[6] G. Schmid, Nanoparticles: From Theory to Application, WILEY-
VCH Verlag GmbH & Co. KGaA, Weinheim (2004).
[7] A. I. Ekimov, and A. A. Onushchenko, Fizika I
TekhnikaPoluprovodnikov: Soviet Physics –Semiconductors,
16 (1982) 775.
[8] R. Rossetti, J. L. Ellison, J. M. Gibson, L. E. Brus, J. Chem.
Phys. 80 (1984) 4464.
[9] A. L. Efros and M. Rosen, Ann. Rev. Mater. Sci. 30(2000) 521.
[10] A. P. Alivisatos, J. Phys. Chem. 100 (1996) 13226.
[11] U. Banin, Y.W. Cao, D. Katz and O. Millo, Nature, 400 (1999)
542.
194
[12] G. Scholes and G. Rumbles, Nature Materials, 5 (2006) 920.
[13] M. A. El-Sayed, AccChem Res, 34 (2001) 257.
[14] W. L. Bames, A. Dereus and T. W. Ebbesen, Nature, 424
(2003) 824.
[15] G. Schmid and G. Metals. In Nanoscale Materials in
Chemistry; K. J. Klabunde, Ed.; Wiley-nterscience: New York,
Chapter 2 (2001) 15.
[16] Suryanarayana C, Bull. Mater. Sci. 17 (1994) 307.
[17] Franks A, J. Phys. E. Sci. Instrum. 20 (1987) 1442.
[18] Capasso F (Ed.) Physics of Quantum Electron Devices,
Springer Verlag, Berlin (1990).
[19] Beltram F, Capasso F and Sen S, in Electronic Materials: A
New Era in Materials Science, Chelikovsky J R and FranciosiA
(Eds.), Springer Verlag, Berlin (1992).
[20] ShunjiBandow, Keisaku Kimura, KijiroKon-No , AyaoKitahara,
Japan. J. App. Phys. 26 (1987) 713.
[21] Shen T D, Ge W Q, Wang K Y, Quan M X, Wang J T, Wei W D
and Koch C C, Nanostruct. Mater. 7 (1996) 393.
[22] Corrias A, Ennas G, Paschina G, Piccaluya G and Zedda D,
Mat. Sci. Forum, 195 (1995) 25.
[23] R. Vivekanand, Sam Philip and Kutty T R N, Mater. Res. Bull.
22(1986) 99.
[24] Kutty T R N, Vivekanandan R and Sam Philip, J. Mater. Sci.
25 (1990) 3649.
195
[25] Yado Yang Li, Ding Yi, Yue Zhang and YitaiQian, J. Phys.
Chem. Solids., 60 (1 13 (1999) 13.
[26] T Yao and J C Woo; “Physics and applications of
semiconductor quantum structures” IOP publishing Bristol
and Philadelphia (2001).
[27] A K Bandyopadhyay “nanomateials” New Age International (P)
Ltd (2007).
[28] C.T.Kresge, M.E. Leonowicz, W.J. Roth, J.C. Vartuli, J.C.
Beck, Natur 359 (1992)710.
[29] Tilley, C. E., A note on the progressive metamorphism of
siliceou limestone’s And dolomites. Geol. Mag.88 (195) 1175-
1178.
[30] J.T. Hu, T.W. Odom, C.M. Lieber, Acc.Chem. Res. 32(1999)
435.
[31] R. Tenne, Chem. Eur. J. 8(2002)5297.
[32] G.R. Patzke, F. Krumeich, R. Nesper, Angew, Che. Int. Ed.
41(2002) 2446.
[33] A. K. Chatterjee, Cem. Concr. Res, 26(8) (1996)1213.
[34] A. K. Chatterjee, Cem. Concr. Res, 26(8) 1996)1227.
[35] A. Guerrero, S. Goni, A. Macias, Cem. Concr. Res. 30(8) (2000)
1231.
[36] N.Tangboriboon, T. Khongnakhon, S.Kittikul, R.
Kunanuruksapong, A. Sirivat, J. of Sol-Gel Science and
Technology, 58 (2011) 33-41.
196
[37] J.T. Hu, T.W. Odom, C.M. Lieber, Acc.Chem. Res. 32(1999)
435.
[38] G.R. Patzke, F. Krumeich, R. Nesper, Angew, Che. Int. Ed.
41(2002) 2446.
[39] Y.N. Xia, P.D. Yang, Y.G. Sun, Y.Y. Wu, B. Mayers, B. Gates,
Y.D. YinKim, Y.Q. Yan, Adv. Mater, 15(2003) 353.
[40] S. Iijima, Nature, 354 (1991) 56.
[41] N. G. Chopra, R. L. Luyken, K. Cherry and V. H. Crespi,
Science, 269 (1995) 966.
[42] H. P. Lin and C. Y. Mou, Science, 273(1996) 765.
[43] Z. W. Pan, Z. R. Dai and Z. L. Wang, Science, 291(2001) 1947.
[44] L. Gao, Y. Ji, H. Xu, P.Simon, Z. Wu, J. Am. Chem. Soc.124
(2002)14864..
[45] E. G. Garrison, Phys. Today, 54(10)(2001) 32.
[46] T.Justel. H. Nikol and C. Ronda. Angew. Chem., Int. Ed. 37
(1998) 3084.
[47] G. Blasse and B. C. Grabmaier, Luminescent Materials,
Springer-Verlag, Berlin, (1994).
[48] C.D. Muller, A. Falcou. N. Reckefuss, M. Rojahn, V. Wiederhin.
P. Rudati, H. Frohne. O. Nuyken, H. Becker &K. Meerholz.
Nature.421(2003) 829.
[49] E. Betzig. And J. K. Trautman. Science.257(1992) 189.
[50] K. C. Patil, S. T. Aruna, ParthasarathiBera and M. S. Hegde,
Research Signpost, 33/661(2).
197
[51] Yang H., Coombs N., Sokolov I., and Ozin G.A., Nature, 381
(1996) 589.
[52] Yang P., Zhao D., Margolese D.I., Bates B.F., and Stucky G.D.,
Nature, 396 (1998) 152.
[53] Ying J.Y., Mehnert C.P., and Wong M.S., Angew.
Chem.Int.Edn.England., 38 (1999) 56.
[54] Yarif S, Substitution of silicon by phosphorus in silicates,
Chem.Erde 46 (1987) 1.
[55] Raabe G &Michl J Multiple bonds to silicon, in The Chemistry
of Organic Silicon Compounds Part 2eds, S.Pataiand Z.
Rappoport (Wiley Interscience) (1989) 1015.
[56] V. Gibbs , Mineralogical Society of America, 1-40.1994
[57] Reed A E, Schade C, von RagueSchleyer P, Kamath P V &
Chandrasekhar J Anomeric effects involving silicon centres:
Silanols, Chem. Comm. (1988) 67.
[58] O'Keeffe M, Domenges B & Gibbs G V Ab initio molecular
orbital Calculations phosphates: Comparison with silicates, J.
Phys. Chem., 89 (1985) 2304.
[59] V. Gibbs , Mineralogical Society of America, 1-40.1994.
[60] B.Bihari,H.Eilers,B.M.Tissue,J.Lumin,75 (1997) 1.
[61] G.T.Adylov, G.V.Voronov, S.A.Gornostaeve,N.A.Kulagian, E.P.
Mansurova, M.Kh.Rumi, Refract. Indust. Cerma. 43(2002) 11.
[62] P.N. DeAza, F.Guitian, S.DeAza,Scr. Metall.Mater., 31(1994)
1001.
198
[63] P.N. DeAza, Z.B Luklinska, M.Anseau, F.Guitian, S.De AZA,
j.Microsc. 182(1996) 24.
[64] P.N. De Aza, F.Guitian, S.De Aza. Biomaterials,18 (1997) 1285.
[65] P.N. De Aza, F.Guitian, S.De Aza. Biomaterials,21 (2000) 1735.
[66] P.Siriphannon,S.Hayashi,A.Yasumori,K.Okada,J.Mater.Res.,14
(1999) 529.
[67] Z.Yu-tao, X.Xiao, D.Qi-xun, J.Jiangsu Univ., 26 (2005) 354.
[68] Qiu J.R, Sugimoto, N.Iwabuehi, Y.Hirao, J.Non crystalline
solids., 209 (1997) 200.
[69] Glynn T.J. Kuleshov, N.V.Mikhailov, V.P.Scherbitsky. Optica
Mater, 4 (1995) 507.
[70] O.A. Lopez, J.Mckittrick, L.E.Shea, J.Lumin.71 (1997) 1.
[71] T. Fukui, K. Toda, S. Kirihara, in: Masuo Hosokawa,
Kiyoshinogi, MakioNaito, ToyokazuYokoyazna (Eds.)
Nanoparticle Technology Handbook, Elsevier (2007) 319.
[72] A. E Ringwood, Composition and petrology of the earth's
mantle, McGraw-Hill (New York) (1975) 618
[73] Bridget O'Neill, Raymond Jeanloz, Geophysical Research
Letters, 17(1990) 1477.
[74] Sang-Heon, Shim Thomas S. Duffy GuoyinShen, Journal of
Geophysical Research: Solid Earth (1978–2012) 105 (2000).
[75] Sean R. Shieh, Thomas S. Duffy, GuoyinShen, Physics of the
Earth and Planetary Interiors,143–144,(2004) 93.
199
[76] Kaili Lin, Wanyin Zhai, Siyu Ni, Jiang Chang, Yieng, Weijun
Qian, Ceramics International, 31(2005) 323.
[77] R.P. S.Chakradhar, B.M. Nagabhushana, G.T. Chandrappa,
K.P.Ramesh, J.L. Rao, Materials Chemistry & Physics,
95(2006) 169.
[78] J.M. Henriques, E.W.S. Caetano, V.N. Freire, J.A.P. da osta,
E.L.Albuquerque, Chemical Physics Letters, 427(2006)113.
[79] Wei Xia, Jiang Chang, Microporous and Mesoporous Materials,
108 (2008) 345.
[80] Lei Zhou, Bing Yan, J.Of Physics and Chemistry Of Solids,
69(2008) 2877.
[81] F. A. Kroger , Some Aspects of the Luminescence of Solids,
Elsevier, Amsterdam (1948)
[82] Yang Liangzhun, Fang Min, Liu Yuejiao, Liu Chao, Wang
Xiuying, Yu Xibin,Front. Chem. China 2(4) (2007) 442.
[83] Jinghai Yang , LiliYangc, Wenyan Liu , Yongjun Zhang ,
Hougang Fan , Yaxin Wang , Huilian Liu , JihuiLanga, Dandan
Wang , Journal of Alloys and Compounds454 (2008) 506.
[84] Yang Jing-Hai, Liu Wen-Yan,Yang Li-Li, Zhang Yong-Jun,
Wang Ya-Xin Fan Hou-Gang,Chem. Res. Chinese U.22(6),
(2006) 671.
[85] C. Ainsworth, R. Jones, J. Am. Chem. Soc., 77 (1995) 621.
200
[86] J.J. Kingsley, K.C. Patil, Mater. Lett. 6 (1998) 427.
[87] L.-wei Wang, Z. Xu, F.-jun Zhang, S.-ling Zhao, L.-fang Lu,
International Journal of Minerals, Metallurgy, and Materials,
17 (2010) 475-480.
[88] R. Hong, J. Huang, H. Qi, H. He, Z. Fan, J. Shao, Thin Solid
Films, 473 (2005) 58-62.
[89] Z.Y. Xue, D.H. Zhang, Q.P. Wang, J.H. Wang, Science And
Technology, 195 (2002) 126-129.
[90] R. Elilarassi, G. Chandrasekaran, Journal of Materials
Science: Materials in Electronics, 21 (2009) 1168-1173.
[91] Y. Fasasi, F. Balogun, P.O. Ogunleye, M.K. Fasasi C.E.
Mokobia, E.P. Inyang, Sensors and Actuators A: Physical 135
(2007) 598-604.
[92] W.M. Jadwisienczak, H.J. Lozykowski, a. Xu, B. Patel, Journal
of Electronic Materials, 31 (2002) 776-784.
[93] S.L. Yang, R.S. Gao, B. Yang, P.L. Niu, R.H. Yu, App. Physics
A, 99 (2010) 9-13.
[94] S. Turner, S.M.F. Tavernier, E. Biermans, G. Huyberechts, S.
Bals, K.J. Batenburg, G. Tendeloo, Journal of Nanoparticle
Research, 12 (2009) 615-622.
[95] M. Oztas, Journal of Materials Science: Materials in
Electronics, 17 (2006) 937-941.
[96] C. Panatarani, I. Wuledlenggoro, K. Okuyama, Journal of
Physics and Chemistry of Solids, 65 (2004) 1843-1847.
201
[97] S. Chen, G. Wang, Y. Liu, Journal of Luminescence, 129
(2009) 340-343.
[98] U.N. Maiti, , S.F. Ahmed, P.K. Ghosh M.K. Mitra, K.K.
Chattopadhyay, Journal of Sol-Gel Science and Technology, 41
(2006) 87-92.
[99] Y. Yang, H. Chen, B. Zhao, X. Bao, J. Cryst. Growth, 263
(2004) 447.
[100] M. Purica, E. Budianu, M. Danila, E. Rusu, R. Gavrila, Thin
Solid Films, 403 (2002) 485.
[101] J. H. Lee, K. H. Ko, B. O. Park, J. Cryst. Growth, 247 (2003)
119.
[102] R. Ayouchi, D. Leinen, F. Martin, M. Gabas, E. Dalchiele, J. R.
Ramos-Barrado, Thin Solid Films, 426 (2003) 68.
[103] Z. M. Dang, L. Z. Fan, S. J. Zhao, C. W. Nan, Mater. Sci. Eng.
B, 99 (2003) 386.
[104] J. Q. Hu, Q. Li, N. B.Wong, C. S. Lee, S. T. Lee, Chem. Mater.
14 (2002) 1216.
[105] J. Y. Lao, J.Y. Huang, D.Z.Wang, Z.F.Ren, Nano Lett. 3 (2003)
235.
[106] Kistier, Nature 127 (1931)741.
[107] C.J. Brinker, G.W. Scherer, In Sol-Gel Science, the Physics
and Chemistry of Sol-Gel Processing, Academic press, New
York, (1990).
[108] J. Philip, T.R.N. Kutty, Mater. Chem. Phys. 63 (2000) 218.
202
[109] G. Pang, X. Xu, V. Markovich, S. Avivi, O. Palchik, Y. Koltypin,
G. Gorodetsky, Y. Yeshurun, H.P. Buchkremer, A.
Gedanken, Mater. Res. Bull. 38 (2003) 11.
[110] V. B. Bhatkar, S.K.Omanwar , S.V.Moharil, “Combustion
Synthesis of Silicate Phosphors”, Optical Materials, 29, 1066-
1070, 2007
[111] B. D. Cullity, S.R. Stock, Elements of X ray diffraction, Third
edition, New Jersey, Prentice Hall (2001) 170.
[112] M. J. Buerger, X-ray Crystallography, John Wiley & Sons,
NewYork (1962).
[113] H. Klug and L. Alexander, X-ray Diffraction Procedures, John
Wiley and Sons Inc, New York, USA (1962) 491.
[114] G. K. Williamson, W. H. Hall, Acta Metall., 1 (1953) 22-31.
[115] L. Reimer, Scanning electron microscopy, physics of image
formation and microanalysis. Springer, (1998) 527.
[116] J. Goldstein, Scanning electron microscopy and x-ray
microanalysis. Kluwer Adacemic/Plenum Pulbishers, (2003)
689.
[117] J. Tauc, in: F. Abeles (Ed.), Optical Properties of Solids, North-
Holland, Amsterdam, (1970).
[118] B. Bihari, H. Eilers, B.M. Tissue, J. Lumines. 75 (1997).
[119] Zhao Yu-tao, Xu Xiao-yu, Dai Qi-xun, J of Jiangsu University,
26 (2005) 354.
203
[120] Huanping Wang, Qilong Zhang, Hui Yang, Huiping
Sun,Cera.Internat. 34 (2008) 1405.
[121] M.G. Johnston, W.T.A. Harrison, J. Am. Chem. Soc. 124
(2002) 4576.
[122] L. Yang, M. Fang, L. Du, Z. Zhang, L. Ran, X. Yu, Mat. Res.
Bull. 43 (2008) 2538.
[123] C. I. Zoldesi, C.A. Van Walree, A. Inhof, Langmuir
22(2006)4343.
[124] D. Jia, Y. Wang, X. Guo, K. Li, Y.K. Zou, .Jia,J.Electrochem.
Soc. 154 (1) (2007) J1.
[125] R.P. Sreekanth Chakradhar, B.M. Nagabhushana,
G.T.Chandrappa, K.P.Ramesh, J.L Rao, Mat. Chem. & Phy.
95 (2006)169.
[126] Y.H. Yun, S.D. Yun, H.R. Park, Y.K. Lee, Y.N. Youn, J. Mater.
Synth. Proc. 10 (2002) 205.
[127] R.P. Sreekanth Chakradhar, B.M. Nagabhushana, K.P. Ramesh,
J.L.Rao, Mat. Chem and Phy, 95 (2006) 169.
[128] A. M. Pires, M. R .Davolos, O.L.Malta,,J. Lumin 244(1997)72-
74
[129] S. Atalay, H.I. Adiguzel, F. Atalay, Mater. Sci. Sci. Eng. A, 796
(2001) 304.
[130] J. Tauc, in: F. Abeles (ed), Optical properties of Solids,
NorthHolland, Amsterdam, (1970).
204
[131] W.T.Carnall, P.R.Fields and K.Rajnak, J.Chem.Phys. 49 (1968)
4424
[132] O. A. Lopez, J. McKittrick, L. E. Shea, J. Lumin. 71 (1997) 1.
[133] Y. Jing-hai, L. Wan-Yan, Y. Li-li, Z. Yang-Jun, W. Ya-Xin, F.
Hou-gang, Chem.Res. Chinese U. 22 (2006) 671.
[134] C. F. Wu, W. P. Qin, G. S. Qin, D. Zhao, J. S. Zhang, S.H.
Huang, S. Z. Lv, H. Q. Liu, H. Y. Lin, Appl. Phys. Lett. 82
(2003) 520.
[135] J. Dexpert-Ghys, R. Mauricot, M. D. Faucher, J. Lumin. 69
(1996) 203.
[136] H. Klug, L. Alexander, X-ray diffraction procedures, John
Wiley and Sons Inc.. New York,(1962)49.1
[137] S. Atalay, H.I. Adiguzel, F. Atalay, Mater. Sci. Eng. A 304-306
(2001) 796.
[138] L. zhou, Bing Yan, J. Phys. Chem. Solids, 69 (2008) 2877.
[139] S. Atalay, H.I. Adiguzel, F. Atalay, Mater. Sci. Eng. A
304.(2001) 796.
[140] Qingguo Meng, Jun Lin, Lianshe Fu, Hongjie Zhang, Shubin
Wang and Yonghui Zhou, J. Mater. Chem., 11 (2001) 3382–
3386.
[141] J. M. Henriques, EWs. Caetono, V.N. Freire, J.A.P. da Costa,
E.L. Albuquerque, Chem. Phys. Lett., 427 (2006) 113.
205
[142] Qingguo Meng, Jun Lin, Lianshe Fu, Hongjie Zhang, Shubin
Wang and Yonghui Zhou, J. Mater. Chem., 11 (2001) 3382–
3386.
[143] J. M. Henriques, EWs. Caetono, V.N. Freire, J.A.P. da Costa,
E.L. Albuquerque, Chem. Phys. Lett., 427 (2006) 113.
[144] Qingguo Meng, Jun Lin, Lianshe Fu, Hongjie Zhang, Shubin
Wang and Yonghui Zhou, J. Mater. Chem., 11 (2001) 3382–
3386.
[145] X. P. Fan, M. Q. Wang, Z. L. Hong and G. D. Qian, J.
Phys:Cond. Mater. 9 (1997) 3479.
[146] C. Louis, R. Bazzi Marco, A. Flores, W. Zheng, K. Lebbou, O.
Tillement, B. Mercier, C. Dujardin, P. Perriat, J. Solid State
Chem., 173 (2003) 335.
[147] M. L. Pang, J. Lin, J. Fu, R.B. Xing, C. X. Luo, Y.C. Han, Opt.
Mater., 23 (2003) 547.
[148] O. Miosevic, L. Mancic, B. Jordovic, R. Maric, S. Ohara, T.
Fukui, J. Mater. Process. Tech. 143-144 (2003) 501.
[149] T. Igarashi, M. Ihara, T. Kusunoki, K. Ohno, T. Isobe and M.
Senna, Appl. Phys. Lett. 76 (2000) 1549.
[150] H. Peng, H. Song, B. Chen, S. Lu and S. Huang, Chem. Phys.
Lett. 370 (2003) 485.
[151] H.X. Mai, Y.W. Zhang, R. Si, Z.G. Yan, L.D. Sun, L.P. You and
C.H. Yan, J. Am. Chem. Soc. 128 (2006) 6426.
206
[152] C. Feldmann, T. Justel, C.R. Ronda and P.J. Schmidt, Adv.
Funct. Mater. 13 (2003) 511.
[153] M. Yu, J. Lin, Z. Wang, J. Fu, S. Wang, H.J. Zhang and Y.C.
Han, Chem. Mater. 14 (2002) 2224.
[154] W.M. Yen and M.J. Weber (Eds.), Inorganic Phosphors:
Composites, Preparation and Optical Properties, CRC Press,
20 (2004).
[155] H.S. Nalwa, L.S. Rohwer (Eds.), Handbook of Luminescence,
Display Materials and Devices, American Scientific, 2 (2003).
[156] R.-P. Wei, Z.-H. Ju, J.-X. Ma, D. Zhang, Z.-P. Zang and W.-S.
Liu, J. Alloy Comp. 486 (2009) L17.
[157] Y. Chen, X. Cheng, M. Liu, Z. Qi and C. Shi, J. Lumin. 129
(2009) 531.
[158] B. Liu, L. Kong and C. Shi, J. Lumin. 122–123 (2007) 121.
[159] T. Matsuzawa, Y. Aoki, N. Takeuchi and Y. Marayama, J.
Electrochem. Soc. 143 (1996) 2670.
[160] P. Dorenbos, J. Electrochem. Soc. 152 (2005) H107.
[161] D. Jia, Y. Wang, X. Guo, K. Li, Y.K. Zou and W. Jia, J.
Electrochem. Soc. 154(1), (2007)
[162] A.M. Pires, M.R. Davolos and O.L. Malta, J. Lumin. 244 (1997)
72.
[163] Y.H. Yun, S.D. Yun, H.R. Park, Y.K. Lee and Y.N. Youn, J.
Mater. Synth. Process. 10 (2002) 205.
207
[164] V. Singh, R.P.S. Chakradhar, J.L. Rao and D.-K. Kim, Solid
State Sci. 10 (2008) 1525.
[165] F. Branda, R. Fresa, A. Costantini and A. Buri, Biomaterials,
17 (1996) 2247.
[166] S.J. Dhoble, N.S. Dhoble and R.B. Pode, Bull. Mater. Sci. 26
(2003) 377.
[167] L. Hou and B. Yan, J. Phys. Chem. Solid, 69 (2008) 2877.
[168] J. Tauc, in Optical Properties of Solids, F. Abeles, ed., North-
Holland, Amsterdam, (1970).
[169] J. Manam, V. Chatterjee, S. Das, A. Choubey and S.L.
Sharma, J. Lumin. 130 (2010) 292.
[170] J.M. Henriques, E.W.S. Caetano, V.N. Freire, J.A.P. Da Costa
and E.L. Albuquerque, Chem. Phys. Lett. 427 (2006) 113.
[171] Vengala Rao and S. Buddhudu, Spectrochim. Acta Mol.
Biomol. Spectros. 71 (2008) 951.
[172] J. Wang, Y. Xu, M. Hojamberdiev, Y. Cui, H. Liu and G. Zhu,
J. Alloy Comp. 479 (2009) 772.
[173] G. Seetarama Raju, J.Y. Park, H.C. Jung, B.K. Moon, J.H.
Jeong and J.H. Kim, Curr. Appl. Phys. 9 (2009) 92.
[174] W.T. Carnall, P.R. Fields and K. Rajnak, J. Chem. Phys. 49
(1968) 4424.
[175] G. Blasse G K.A. Gschneider, L. Eyring, Handbook on the
Physics and Chemistry of Rare Earths, North Holland,
Amsterdam, 4 (1979) 237.
208
[176][1] R. Moncorge, H. Manaa, G. Boulon, Opt. Mater. 4 (1994) 139.
[177][2] P.T.Kenyon, L.Andrews, B.Mc Collum, A. Lempicki, IEEE
[3] J.Quantum Electron. QE 18 (1982) 1189.
[178][4] V.C.Costa, F.S.Lameiras, M.V.B.Pinheiro, D.F.Sousa,
L.A.O.Nunes, Y.R.Shen, K.L.Bray, J. Non-Cryst. Solids 273
(2000) 209.
[179][5] S.A.Basun, A.A.Kaplyanskii, A.B.Kutsenko,V.Dierolf,
T.Troester, S.E. Kapphan, K.Polgar, Appl.Phys. B73 (2001)
453.
[180][6] L.Jastrabik, S.E.Kapphan, V.A.Trepakov, I.B.Kudyk,
R.Pankrath, J. Lumin 657 (2003) 102–103.
[181][7] Peter A.Tanner, Chem .Phys. Lett. 388 (2004) 488.
[8] B. Struve, G. Huber, J. Appl. Phys. 57 (1985) 45.
[182][9] Z.Y.Zhang, K.T.V.Grattan, A.W.Palmer, V.Fernicola, L.Crovini,
Phys. Rev. B 51 (1995) 2656.
[183] K.T.V.Grattan, R.K.Selli, A.W.Palmer, Rev. Sci. Instrum. 59
(1988) 1328
[184][10] P.R. Wamsley, K.L.Bray, J. Lumin. 59 (1994) 11.
[185][11] S.M. Kaczmarek, W. Chen, G. Boulon, Cryst. Res. Technol. 41
(2006) 41.
[186][12] V.B. Bhatkar, S.K.Omanwar,S.V.Moharil,Optical Materials 29
(2007) 1066–1070.
[187] J.S. Kima, S.W. Mhob, Y.H. Parkb, J.C. Choib, H.L. Parkb,
G.S. Kim, Solid State Communications 136 (2005) 504–507
209
[188][13] G.J. Talwar, C.P.Joshi, S.V.Moharil , S.M.Dhoptec,
P.L.Muthal, V.K.Kondawar, Journal of Luminescence 129
(2009) 1239–1241.
[189][14] Guangbo Che, Chunbo Liu, Xiuying Li, Zhanlin Xu, Yang Liu,
Hang Wang, Journal of Physics and Chemistry of Solids 69
(2008) 2091– 2095.
[190][15] C. Ainsworth and R.Jones, J.Am.Chem.Soc. 77 (1995) 621.
[191][16] G. K. Williamson, W. H. Hall, Acta Metall, 1 (1953)22-31.
[192] K. Jayanthi, Santa Chawla, K.N. Sood, Manisha Chhibara,
Sukvir Singh, Appl. Surf. Sci. 255 (2009) 5869
[193][17] C. Manjunatha, D.V. Sunitha, H. Nagabhushana , S.C.
Sharma, S. Ashoka, J.L. Rao, B.M. Nagabhushana and R. P.
S. Chakradhar, Mat. Res. Bull , 47 (2012) 2306-2314.
[194][18] A.M. Pires, M.R. Davolos and O.L. Malta, J. Lumin. 244 (1997)
72.
[195][19] R.P. Sreekanth Chakradhar, B.M. Nagabhushana, G.T.
Chandrappa, K.P. Ramesh, J.L.Rao, Mat. Chem and Phy 95
(2006) 169-175.
[196][20] Yahia Z. Hamada, L.Brandon, Carlson, Jeremy T.Shank,
Synthesis and reactivity in inorganic and metal – organic
Chemistry 33, 8 (2003)1435-1436.
[197] VijaySingh, R.P.S.Chakradhar, J.L.Rao, Dong-KukKim
Journal of Luminescence 129 (2009) 130–134.
210
[198][21] J. Tauc, F. Abeles (ed), Optical properties of Solids, North-
Holland, Amsterdam, (1970) 277.
[199][22] H. Nagabhushana, B.M. Nagabhushana, M. Madesh Kumar,
H.B. Prem Kumar, C. Shivakumara, R.P.S. Chakradhar,
philosophical magazine, 90 (2010) 3567-3579 .
[200][23] Michael Gaft, Renata Reisfeld, Gerard Panczer, Modern
luminescence spectroscopy of minerals and materials,
Springer (2005) 170.
[201][24] A van Die, G Blasse and W.F. Vander Weg J. Phys. C: Solid
State Phys. 18 (1985) 3379-3386.
[202][25] Carolina M. Abreu, Ronaldo S. Silva, Mario .G.Valerio, Zelia
S. Macedo, Journal of Solid State Chemistry, 200, (2013),
54–59.
[203][26] J.S. Griffith, The theory of transtition metal ions, Cambridge
university press, London, (1961).
[204][27] A. Suchocki, S.W.Biernacki, A. Kaminska, L. Arizmendi,
Journal of luminescence 102-103 (2003) 571-574.
[205][28] Th. P.J. Botden , F.A. Kroger, Physics, 105, 8 (1948) 553-566.
[206][29] John B. Merrill, James H. Schulman, J.Optical society of
America, 39 (1949) 655- 660.
[207][30] J.J Kingsley, K.C. Patil, Mater.lett 6 (1988) 427-432.
[208] B.M. Nagabhushana, R.P.S. Chakradhar, K.P. Ramesh, V.
Prasad, Philos. Mag. 90 (2010) 2009-2025.
211
[209] C.A.Barboza, J.M.Henriques,E.I. Albuquerque, V.N. Freire,
Phys. D. Appl. Phys 42 (2009) 155406.
[210] F. Branda, R. Fresa, A. Costantini, A. Buri, Biomaterials 17
(1996) 2247.
[211] Yang liangzhun, Fang min, Liu yuejiao, Liu chao, Chem.
China. 2(4)(2007) 442- 446
[212] S. J. Dhoble, N. S. Dhoblwe, R. B. Pode, Bull.Mater.Sci 26
(2003) 377
[213] Tsung-Ta chang, Theses master of science , Tatung
University (2007)72,83.
[214] H. Nagabhushana, B. M. Nagabhushana, M. Madesh kumar,
Spectrochimica Acta Part A 78 (2011) 64-69.
[215] J. Tauc, Fables (Ed), Optical properties of solids, North-
Holland, Amsterdam, 1970
[216] H. F. Folkerts, M. A. Hamstra, G. Blasse, Chem. Phys. Let. 246
(1995) 137
[217] H. F. Folkerts, J. Zuidema, G. Blasse, Chem. Phys. Let. 249
(1996) 60.
[218] P. Fabeni, A. Krasnikov, M. Nikl, Solid state commun. 126
(2003) 665
[219] H. F. Folkerts, J. Zuidema, G. Blasse, Solid stae commun. 99
(1996)
[220] K. Macchida, G. Adachi, N. Ito, J. Shhiokawa, M. Shimada, M.
Koizumi, Mat. Res .bull 17 (1982) 451- 457.
212
[221] L. P. Wang, W.H. Chao, S.H. Wang, T.H. Huang, R.J. Wu,
Mater. Res. Soc. Symp. Proc. 894 (2006) 73
[222] C. Frohlich, Trans. Faraday Soc. 39 (1943) 669
[223] D.T. Palumbo, J. J. Brown Jr, J. Elctrochem. Soc. 117 (1970)
1184 -1188.[20]
[224] C. R . Kesavulu, R.S. Muralidhara, J.L. Rao, R.V. Anavekar,
R.P.S. Chakradhar,J.Alloys and compounds 486 (2009) 50
[225] V. Singh, R. P. S. Chakradhar, J. L. Rao, D.K.Kim,
J.Lumin.128 (2008)394
[226] G. Blasse, C. Grabmaier, Luminescent Materials, Springer,
Berlin, (1994).
[227] Vijay singh, R. P. S. Chakradhar, , J. L. Rao, Ho-Young Kwak,
Solid state science, 11(2009) 870-874
[228] Ram kirpal, Ashutosh kumar sukla, IAS, J. phy,
65(2005)153-157
[229] P. J. Botden, F. A. Kroger, Physica105, 8 (1948)553-565.
[230] P. Bolden, Philips research reports, 7 (1952)197.
[231] Yongchao jia, Wei lu, Ning guo, Wenzhen lu, Qi zhao,
Hongpeng you, Rsc J. Phys. Chem, Dalton trans
10.1039/c3cp50363a.
[232] C. F. Wu, W. P. Qin, G. S. Qin, D. Zhao, J. S. Zhang, S. H.
Huang, S. Z. Lv, H. Q. Liu, H. Y. Lin, Appl. Phys. Lett. 82
(2003) 520.
213
[233] J. Dexpert-Ghys, R. Mauricot, M. D. Faucher, J. Lumin 69
(1996) 203.
[234] B. Bihari, H. Eilers, B. M. Tissue, J. Lumines. 75 (1997) 1.
[235] B. N. Mahalley, S. J. Dhoble, R. B. Pode, G. Alexander, Appl.
Phys. A 70(2000) 39.
[236] H. Lin, D. L. Yang, G. S. Liu, T. C. Ma, B. Zhai, Q. D. An, J. Y.
Yu, X. J. Wang, X. R. Liu, J. Lumin 113 (2005)121.
[237] Zhao Yu-tao, Xu Xiao-yu, Dai Qi-xun, J. Jiangsu University,
2 6 (4), (2005)354
[238] Yu Li-xin, Li Dian-chao, Cao Lin , J. Wuhan University Of
Technology, 24(5),( 2002)1.
[239] Yang Jing-Hai, Gong Jie, Fan Hou-gung, Chem. Res. Chinese
Universities, 9(4), (2003) 450.
[240] Yu Li-xin, Li Dian-chao, Cao Lin, J. Chinese Ceramic Society,
31 (9), (2003) 900.
[241] Yang Jing-hai, Gong Jie, Fan Hou-gung, et al. Chem. Res.
Chinese Univerities, 19(4) , (2003) 450.
[242] Yu Li-xin, Li Dian-chao, Cao Lin, J. Chinese Ceramic
Society, 31(9), (2003) 900.
[243] Yang Jing-hai , Liu Wen-yan , Yang li-li, Zhang Yong-jun ,
Wang Ya-xin, Fan hou-gang , Chem. Res. Chinese University,
22(6),( 2006) 671- 674.
214
[244] Jinghai Yang, Lili Yang, Wenyan Liu, Yongjun Zhang,
Hougang Fan, Yaxin Wang, Huilian Liu, Jihui Lang, Dandan
Wang, J. Alloys and Comp, 454 (2008) 506–509.
[245] F. Branda, R. Fresa, A. Costantini , A. Buri, Biomaterials 17
(1996)2247.
[246] S. J. Dhoble, N. S. Dhoble and R. B. Pode, Bull. Mater. Sci.
26 (2003)377.
[247] Z. F. Wang, W. P. Zhang, L. Lin, B. G. You, Y. B. Fu, M. Yin,
Opt. Mater. 30 (2008) 1484.
[248] F. Real, V. Vallet, J. P. Flament, J. Schamps, J. Chem. Phys.
127 (2007) 104705,
[249] L. G. Jacobsohn, M. W. Blair, S. C. Tornga, L. O. Brown, B. L.
Bennett, R. E. Muenchausen, J. Appl. Phys. 104 (2008)
124303.
[250] B. N.Mahalley, R. B.Pode, P. K.Guptha,
Phys.Stat.Sol,177(1999) 953.
[251] X. T. Wei, Y. H Chen, X. R. Cheng, M. Yin, W. Xu, Appl. Phys
B. 99 (2010) 763.
[252] B. N. Mahalley, S. J. Dhoble, R. B. Pode, G. Alexander, j.
Appl. Phys. A 70 (2000) 39.
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