HOPPE, U. J. A Structural model for phosphate glasses. Journal of Non-Crystalline
10 HOPPE, U. J. A Structural model for phosphate glasses. Journal of Non-Crystalline
Solids, v. 195, n.1-2, p.138-147, 1996.
Referências
11 TSUCHIDA, J.E.; SCHNEIDER, J.; PIZANI, P.S.; OLIVEIRA, S.L. Lead and aluminum bonding in Pb-Al metaphosphate glasses. Inorganic Chemistry, v. 47, n. 2, p. 690-698. 2008
12 TSUCHIDA, J.E. Estrutura de vidros fosfatos ternários no sistema Pb-Al metafosfato. 2007. 99f. Dissertação (Mestrado em Física), Departamento de Física, Universidade Federal
de São Carlos, São Carlos, 2005.
13 SCHNEIDER, J.; OLIVEIRA, S.L.; NUNES, L.A.O.; PANEPUCCI, H. Local structure of sodium aluminum metaphosphate glasses. Journal of the American Ceramic Society, v. 86, n . 2, p. 317-324, 2003.
14 BUNDE, A.; INGRAM, M. D.; MAASS, P. The dynamic structure model for ion transport in glasses. Journal of Non-Crystalline Solids ,v. 172–174, n. 2, p.1222-1236, 1994.
15 SWENSON, J.; MATIC, A.; KARLSSON, C.; BÖRJESSON, L., MENEGHINI, C.; HOWELLS, W. S. Random ion distribution model: a structural approach to the mixed-alkali effect in glasses. Physical Review B, v. 63, n. 13, p. 1322021–1322014, 2001.
16 SWENSON, J.; ADAMS, S. Mixed alkali effect in glasses. Physical Review Letters, v.
90, n. 15, p. 1555071–1555074, 2003.
17 KARLSSON, C.; MANDANICI, A.; MATIC, A.; SWENSON, J.; BÖRJESSON, L. Ionic
conductivity and the mixed alkali effect in Li x Rb 1-x PO 3 glasses. Physical Review B, v. 68, n.
6, p. 0642021–0642029, 2003.
18 GREAVES, G. N. EXAFS and the structure of glass. Journal of Non-Crystalline Solids, v. 71, n. 1-3, p. 203-217, 1985.
19 HALL, A.; SWENSON, J.; ADAMS, S.; MENEGHINI, C. Mixed mobile ion effect and cooperative motions in silver-sodium phosphate glasses. Physical Review Letters, v. 101, n.
19, p.195901-1–195901-4, 2008.
20 PULS, S. P.; ECKERT, H. Site discrimination in mixed-alkali glasses studied by cross- polarization nmr. Journal of Physical Chemistry B, v. 110, n. 29, p. 14253-14261, 2006.
21 EPPING, J. D.; ECKERT, H.; IMRE, W.A.; MEHRER, H. Structural manifestations of
the mixed-alkali effect: nmr studies of sodium rubidium borate glasses. Journal of Non-
Crystalline Solids, v. 351, n. 43-45, p. 3521-3529, 2005.
Referências
22 OLLIER, N.; CHARPENTIER, T.; BOIZOT, B.; WALLEZ, G.; GHALEB, D. A Raman
and MAS NMR study of mixed alkali Na–K and Na–Li aluminoborosilicate glasses. Journal
of Non-Crystalline Solids, v. 341, n. 1-3, p. 26-34, 2004.
23 DU, L. S.; STEBBINS, J. F. Site preference and SiB mixing in mixed-alkali borosilicate
11 glasses: a high-resolution 17 B and O NMR study. Chemistry of Materials, v. 15, n. 20, p. 3913-3921, 2003.
24 RATAI, E.; CHAN, J. C. C.; ECKERT, H. Local coordination’ and spatial distribution of cation in mixed-alkali borate glasses. Physical Chemistry Chemical Physics, v. 4, n.1, p. 3198-3208, 2002.
25 STEBBINS, J. F. Cations sites in mixed-alkali oxide glasses: correlation of NMR chemical shift data with site size and bond distance. Solid State Ionic, v. 112, n. 1-2, p. 137-141, 1998.
26 RATAI, E.; JANSSEN, M.; ECKERT, H. Spatial distributions and chemical environments
of cations in single and mixed alkali borate glasses: evidence from solid state NMR. Solid
State Ionic, v. 105, n. 1-4, p. 25-37, 1998.
27 GEE, B.; ECKERT, H. Local cations environments in mixed alkali silicate glasses studied
by multinuclear single and double resonance magic-angle spinning NMR. Journal of Non-
Crystalline Solids, v. 215, n. 1, p. 41-50, 1997.
28 YAP, T. W.; FOERSTER, H.; ELLIOTT, S. R. Spin-echo double resonance nmr evidence
for preferential like-cation clustering in mixed-alkali disilicate glasses. Physical Review
Letters, v. 75, n. 21, p.3946-3949, 1995.
29 ALI, F.; CHADWICK, A. V.; GREAVES, G. N.; JERMY, M. C.; NGAI, K. L.; SMITH, M. E. Examination of the mixed-alkali effect in (Li,Na) disilicate glasses by nuclear magnetic resonance and conductivity measurements. Solid State Nuclear Magnetic Resonance, v. 5, n. 1, p. 133-143, 1995.
30 HATER, W.; MÜLLER-WARMUTH, W.; MEIER, M.; FRISCHAT, G. H. High-
resolution solid-state NMR studies of mixed-alkali silicate glasses. Journal of Non-
Crystalline Solids, v. 113, n. 2-3, p. 210-212, 1989.
31 VIVIANI, D.; FAIVRE, A.; LEVELUT, C.; SMAIHI, M. Structural change in Li and Na
aluminophosphate glasses: evidence of a “structural mixed alkali effect” Journal of Physical
Chemistry B, v. 110, n .14, p. 7281-7288, 2006.
Referências
32 PRABAKAR, S.; MUELLER, K. T. Solid-state NMR investigation of sodium–cesium mixed-alkali phosphate glasses. Journal of Non-Crystalline Solids, v. 349, n. 1, p. 80-87, 2004.
33 LE SAUZE, A.; MONTAGNE, L.; PALAVIT,G.; FAYON, F.; MARCHAND, R. X-ray photoelectron spectroscopy and nuclear magnetic resonance structural study of phosphorus oxynitride glasses, ‘LiNaPON’. Journal of Non-Crystalline Solids, v.263-264, n. 1, p. 139- 145, 2000.
34 WENSLOW, R. M.; MUELLER, K. T. Cations sites in mixed-alkali phosphate glasses Journal of Non-Crystalline Solids, v. 231, n. 1-2, p. 78-88, 1998.
35 SATO, R. K.; KIRKPATRICK, R. J.; BROW,R. K. Structure of Li,Na Metaphosphate
31 glasses by 23 P and Na MAS-NMR correlated with the mixed alkali effect Journal of Non-
Crystalline Solids, v. 143, n. 1, p. 257-264, 1992.
36 RAO, K. J.; KUMAR, S. Multialkali phosphate glasses: A new window to understand the mechanism of ions transport. Current Science, v. 85, n.7, p. 945-955, 2003.