Crystallinity of hybrid nanozeolite-poly(ethylene oxide) composites

Journal of Composite Materials

Volumn 39, Issue 3, 2005, Pages 193-198

  Kennedy, Catherine A ^a   Zhan, B I Zeng ^a   White, Mary Anne ^a  

^a DALHOUSIE UNIVERSITY   (Canada)

Author keywords

Composite; Differential scanning calorimetry; Glass transition temperature; Hybrid organic inorganic materials; Nanozeolite; Poly(ethylene oxide); Solid polymer electrolyte

Indexed keywords

COMPOSITE MATERIALS; CONCENTRATION (PROCESS); DIFFERENTIAL SCANNING CALORIMETRY; GLASS TRANSITION; GRAFTING (CHEMICAL); NANOSTRUCTURED MATERIALS; POLYELECTROLYTES; ZEOLITES;

ETHYLENE OXIDE; HYBRID ORGANIC-INORGANIC MATERIALS; NANOZEOLITE; SOLID POLYMERS;

POLYETHYLENE OXIDES;

EID: 17144417782     PISSN: 00219983     EISSN: None     Source Type: Journal    
DOI: 10.1177/0021998305046439     Document Type: Article

References (23)

1. Fenton, D.E., Parker, J.M. and Wright, P.V. (1973). Complexes of Alkali Metal Ions with Polyethylene oxide), Polymer, 14(11): 589.
2. Meyer, W.H. (1998). Polymer Electrolytes for Lithium-ion Batteries, Advanced Materials, 10(6): 439-448.
3. Armand, M. (1994). The History of Polymer Electrolytes, Solid State Ionics, 69(3-4): 309-319.
4. Tarascon, J.-M. and Armand, M. (2001). Issues and Challenges Facing Rechargeable Lithium Batteries, Nature, 414(6861): 359-367.
5. Wright, P.V. (2002). Developments in Polymer Electrolytes for Lithium Batteries, MRS Bulletin, 27(8): 597-602.
6. Shriver, D.F. and Bruce, P.O. (1995). Polymer Electrolytes. I. General Principles, Chemistry of Solid State Materials, 5: 95-118.
7. Krawiec, W., Scanlon Jr., L.G., Fellner, J.P., Vaia, R.A., Vasudevan, S. and Giannelis, E.P. (1995). Polymer Nanocomposites: A New Strategy for Synthesizing Solid Electrolytes for Rechargeable Lithium Batteries, J. Power Sources, 54(2): 310-315.
8. Wieczorek, W., Stevens, J.R. and Florjanczyk, Z. (1996). Composite Polyether Based Solid Electrolytes. The Lewis Acid-Base Approach, Solid State Ionics, 85(1-4): 67-72.
9. 4-MgO Composite Electrolytes, Electrochimica Acta, 46(10-11): 1515-1521.
10. Croce, F., Appetecchi, G.B., Persi, L. and Scrosati, B. (1998). Nanocomposite Polymer Electrolytes for Lithium Batteries, Nature, 394(6692): 456-458.
11. Ulrich, R., Zwanziger, J.W., De Paul, S.M., Reiche, A., Leuninger, H., Spiess, H.W. and Wiesner, U. (2002). Solid Hybrid Polymer Electrolyte Networks: Nano-structurable Materials for Lithium Batteries, Advanced Materials, 14(16): 1134-1137.
12. Gray, F.M. (1991). Polymer Electrolyte - Fundamentals and Technical Applications, VCH, Wenheim.
13. Zhan, B.-Z., White, M.A., Fancy, P., Kennedy, C.A. and Lumsden, M. (2004). Functionalization of a Nano-faujacite zeolite with PEG-grafted PMA Tethers, Using Atom Transfer Radical Polymerization, Macromolecules, 37(8): 2748-2753.
14. Szostak, R. (1989). Molecular Sieves: Principles of Synthesis and Identification, Van Nostrand Reinhold, New York.
15. Krogh Andersen, E., Krogh Andersen, I.G., Metcalf-Johansen, J., Simonsen, K.E. and Skou, E. (1988). The Ionic Conductivity of Alkali Metal-Zeolite X, Solid State Ionics, 28-30(1): 249-253.
16. Kelemen, G. and Schoen, G. (1992). Ionic Conductivity in Dehydrated Zeolites, Journal of Materials Science, 27(22): 6036-6040.
17. Nischwitz, P., Amels, P. and Fetting, F. (1994). Studies on the Ionic Conductivity of Zeolitic Solids, Solid State Ionics, 73(1,2): 105-118.
18. Feuerstein, M. and Lobo, R.F. (1999). Mobility of Li Cations in X Zeolites Studied by Solid-state NMR Spectroscopy, Solid State Ionics, 118(1,2): 135-139.
19. Park, S.-H., Parise, J.B., Gies, H., Liu, H., Grey, C.P. and Toby, B.H. (2000). A New Porous Lithosilicate with a High Ionic Conductivity and Ion-Exchange Capacity, Journal of the American Chemical Society, 122(44): 11023-11024.
20. Zhan, B.-Z., White, M.A., Robertson, K.N., Cameron, T.S. and Gharghouri, M. (2001). A Novel, Organic-additive-free Synthesis of Nanometer-sized NaX Crystals, Chemical Communications, 13: 1176-1177.
21. Zhan, B.-Z., White, M.A., Lumsden, M., Mueller-Neuhaus, J., Robertson, K.N., Cameron, T.S. and Gharghouri, M. (2002). Control of Particle Size and Surface Properties of Crystals of NaX Zeolite, Chemistry of Materials, 14(9): 3636-3642.
22. Zhan, B.-Z., White, M.A. and Lumsden, M. (2003). Bonding of Organic Functional Groups to Nanozeolite Crystal Surfaces, Langmuir, 19(10): 4205-4210.
23. Van Oort, M.J.M. and White, M.A. (1998). Polymorphism in Dialkylammonium Chlorides. An Adiabatic Calorimetry Study, Ber. Bunsen. Ges. Phys. Chem., 92(2): 168-176.